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WKM Physics Model

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WKM 203.2 mm (8 Inch) World Globe with Nickel Plated Metal Base 6B-8WDH-YVC0

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WKM 203.2 mm (8 Inch) World Globe with Nickel Plated Metal Base 6B-8WDH-YVC0

By WKM

₹1,297

The WKM 8 Inch World Globe with Nickel Plated Metal Base 6B-8WDH-YVC0 is a high-quality globe that is perfect for both educational and decorative purposes. The globe is made of high-quality materials and features a detailed map of the world that is both accurate and up-to-date.
The globe measures 8 inches in diameter, making it the perfect size for a desk or bookshelf. The nickel-plated metal base is sturdy and durable, ensuring that the globe will remain stable and secure wherever it is placed.
One of the standout features of this globe is its level of detail. The map is highly detailed and includes all of the major cities, countries, and bodies of water around the world. The colors used on the map are vibrant and eye-catching, making it easy to distinguish between different regions and countries.
In addition to its educational value, the WKM 8 Inch World Globe with Nickel Plated Metal Base 6B-8WDH-YVC0 is also a beautiful decorative piece. The sleek and modern design of the nickel-plated metal base complements the detailed map of the world, making it a great addition to any home or office.
Overall, the WKM 8 Inch World Globe with Nickel Plated Metal Base 6B-8WDH-YVC0 is a high-quality globe that is both educational and decorative. Its level of detail and accuracy make it a great tool for learning about the world, while its sleek design makes it a beautiful addition to any space.

WKM Motorized Solar System Model for Educational Purpose KT147AV

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WKM Motorized Solar System Model for Educational Purpose KT147AV

By WKM

₹3,775 ~~₹6,999~~

You save ₹3,224!

46.06% OFF

The WKM Motorized Solar System Model for Educational Purpose KT147AV is a captivating and instructive educational tool designed to demonstrate the motion and relative positions of celestial bodies in our solar system. It provides a dynamic and interactive representation of the solar system, allowing students to understand the astronomical phenomena in a hands-on and engaging manner.
The model typically includes a set of motorized planets representing the major celestial bodies in our solar system, such as Mercury, Venus, Earth, Mars, Jupiter, Saturn, Uranus, and Neptune. These planets are carefully crafted to scale, providing a visual representation of their relative sizes and distances from the Sun.
The centerpiece of the model is a light source that represents the Sun, placed at the center of the system. The motorized planets are suspended on metal arms, allowing them to orbit around the Sun in their respective paths, simulating the actual motions of the planets in the solar system.
By turning on the motor, students can observe the planets' orbits and learn about their individual rotation periods and orbital periods. This motion helps them understand the concept of planetary revolutions and the varying speeds at which planets move around the Sun.
The model often includes adjustable controls, enabling students to change the speed of the motor and observe the effects of different orbital velocities. This feature allows for discussions on celestial mechanics, Kepler's laws of planetary motion, and the concept of elliptical orbits.
The WKM Motorized Solar System Model is an excellent tool for teaching various aspects of astronomy and astrophysics. It helps students grasp fundamental concepts such as the heliocentric model, planetary distances, and the inclination of planetary orbits. Moreover, it fosters an appreciation for the vastness and complexity of the solar system.
Educators can use this model to explain planetary phenomena like seasons, solar and lunar eclipses, and the phases of the Moon. It also serves as an engaging visual aid for discussions about the search for extraterrestrial life, space exploration, and the importance of understanding our place in the cosmos.
In summary, the WKM Motorized Solar System Model for Educational Purpose KT147AV is an invaluable educational tool that brings the wonders of the solar system into the classroom. By providing an immersive and interactive experience, it helps students develop a deeper understanding of astronomy, planetary motion, and the marvels of our celestial neighborhood.

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WKM Globe 14-BDQZ-VOJ8

By WKM

₹1,037

The WKM Globe 14-BDQZ-VOJ8 is a type of ball valve that is commonly used in the oil and gas industry. It is designed to provide reliable and efficient shut-off capabilities for a wide range of applications, including high-pressure and high-temperature environments.
The valve features a full-bore design, which means that the internal diameter of the valve is the same as the pipeline it is installed in. This allows for maximum flow capacity and minimal pressure drop, which is important in applications where high flow rates are required.
The WKM Globe 14-BDQZ-VOJ8 is also designed with a floating ball that is held in place by two seats. This design allows for a tight seal when the valve is closed, preventing any leakage or loss of pressure. The ball is also designed to rotate freely, which helps to reduce wear and tear on the valve and prolong its lifespan.
One of the key features of the WKM Globe 14-BDQZ-VOJ8 is its ability to withstand high pressures and temperatures. The valve is constructed from high-quality materials, such as carbon steel and stainless steel, which are able to withstand extreme conditions without degrading or failing.
Overall, the WKM Globe 14-BDQZ-VOJ8 is a reliable and efficient ball valve that is well-suited for use in the oil and gas industry. Its full-bore design, floating ball, and high-pressure and high-temperature capabilities make it an ideal choice for a wide range of applications.

WKM 254 mm(10 Inch) 1.8 A 100 Rheostat for School and College Labs KTN93

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WKM Rheostat for School and College Labs

By WKM

₹848 - ₹2,477

You save ₹877!

29.23% OFF

The WKM Rheostat designed for school and college labs is a versatile electrical resistor used for controlling the flow of electric current in circuits. It is an essential component in physics and electronics laboratories, where students conduct experiments to study the behavior of electrical circuits, Ohm's law, and electrical power. This rheostat typically features a robust construction with a resistance wire wound on a ceramic or metal core, enclosed in a protective casing. It is designed to withstand frequent handling and provide accurate and reliable performance over an extended period. The rheostat allows students to vary the resistance in a circuit by adjusting the position of a sliding contact along the resistance wire. This enables them to control the intensity of current flowing through the circuit and study its effects on voltage, current, and power dissipation. With its user-friendly design and intuitive operation, the WKM Rheostat for school and college labs provides students with hands-on experience in electrical circuitry and helps reinforce theoretical concepts taught in the classroom. It serves as a valuable educational tool for teaching principles of electricity and electronics to students at various educational levels.

Color : Grey and Black

Country of Origin : India

Name of Manufacturer/Packer/Importer : Kamboj Traders

WKM 1.5 m Full Shaper Double Rod Brass Optical Bench for Physics Labs KTN496

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WKM 1.5 m Full Shaper Double Rod Brass Optical Bench for Physics Labs KTN496

By WKM

₹10,147 ~~₹16,000~~

You save ₹5,853!

36.58% OFF

WKM 1.5 m Full Shaper Double Rod Brass Optical Bench for Physics Labs KTN496 is a versatile and indispensable tool used in laboratories for conducting various experiments and demonstrations in optics and photonics. It provides a stable and precisely aligned platform for assembling and testing optical components and systems, allowing researchers, students, and scientists to investigate the behavior of light and the principles of optics.
The optical bench typically consists of a long, straight rail made of high-quality metal or aluminum. Along the rail, there are adjustable mounts, carriers, and fixtures that securely hold optical components such as lenses, mirrors, prisms, filters, and other elements. These components can be easily moved and positioned along the rail to create different optical arrangements.
One of the primary purposes of the optical bench is to construct and test optical systems, such as telescopes, microscopes, spectrometers, and laser setups. By precisely adjusting the position of optical components, users can optimize the alignment and focus of the system, ensuring maximum performance and accuracy.
In educational settings, an optical bench is frequently used to demonstrate various optical phenomena and principles. For instance, it can be employed to show the formation of images using lenses and mirrors, diffraction patterns, interference effects, and the behavior of light as it passes through different media.
The modular and flexible nature of the optical bench allows researchers and students to design and execute a wide range of experiments, from basic optical demonstrations to more complex research investigations. It provides a hands-on learning experience and facilitates the understanding of fundamental optical concepts.
Additionally, optical benches often feature built-in rulers or scales, enabling precise measurements of distances between optical components and the determination of focal lengths or other optical parameters. This level of precision is critical in accurately characterizing the optical properties of components and systems.
When using an optical bench, careful handling and alignment are essential to achieve reliable and reproducible results. Regular cleaning and maintenance of the optical components and the bench itself are necessary to keep the system in optimal working condition and prevent dust or contaminants from affecting experimental outcomes.
In summary, the optical bench is a versatile and valuable tool in laboratories, supporting a wide range of experiments and demonstrations in optics and photonics. Its stability, precision, and flexibility make it a fundamental platform for researchers and students to explore the behavior of light and advance their understanding of optical phenomena.

WKM Newton's Cradle with Steel Balls KTN376

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WKM Newton's Cradle with Steel Balls KTN376

By WKM

₹3,067

WKM Newton's Cradle with Steel Balls KTN376 is a classic physics toy that demonstrates the principles of conservation of momentum and energy. It consists of a frame with five steel balls suspended from strings of equal length. The balls are arranged in a straight line, with the outer balls at rest and the middle ball raised to a certain height and released.
When the middle ball is released, it swings down and collides with the stationary ball next to it. This collision transfers some of the energy and momentum from the middle ball to the stationary ball, causing it to swing up to the same height as the middle ball was before the collision. At the same time, the middle ball comes to a stop and swings back up to a certain height, ready for the next collision.
This process repeats itself, with the energy and momentum being transferred from one ball to the next in a chain reaction. The outer balls remain stationary throughout the process, acting as fixed points of reference.
The WKM Newton's Cradle with Steel Balls KTN376 is made of high-quality steel balls that are durable and resistant to wear and tear. The frame is also sturdy and well-designed, ensuring that the balls swing smoothly and accurately.
This toy is not only a fun and entertaining way to learn about physics, but it also has practical applications in fields such as engineering and mechanics. It can be used to demonstrate the principles of energy transfer and conservation in a simple and visual way, making it an ideal teaching tool for students of all ages.
Overall, the WKM Newton's Cradle with Steel Balls KTN376 is a well-made and effective physics toy that is both educational and enjoyable to use.

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WKM Hydraulic Press KTN394

By WKM

₹1,415

The WKM Hydraulic Press KTN394 is a high-performance hydraulic press designed for industrial applications. It is a versatile machine that can be used for a wide range of tasks, including pressing, bending, punching, and forming. The press is built with high-quality materials and components, ensuring durability and reliability in operation.
The press has a maximum force capacity of 394 tons, making it suitable for heavy-duty applications. It is equipped with a hydraulic system that provides smooth and consistent pressure, ensuring accurate and precise results. The press also features a programmable controller that allows for easy operation and control of the machine.
The WKM Hydraulic Press KTN394 has a large working area, measuring 2000mm x 1200mm, which provides ample space for large workpieces. The press is also equipped with a safety system that ensures the safety of the operator and the machine during operation. The safety system includes safety guards, emergency stop buttons, and safety interlocks.
The press is designed for easy maintenance, with easy access to all components and parts. The hydraulic system is equipped with a filtration system that ensures clean oil and extends the life of the hydraulic components. The press also features a self-lubricating system that reduces maintenance requirements and ensures smooth operation.
In conclusion, the WKM Hydraulic Press KTN394 is a high-performance hydraulic press that is suitable for a wide range of industrial applications. It is built with high-quality materials and components, ensuring durability and reliability in operation. The press is easy to operate and maintain, making it an ideal choice for industrial applications that require high precision and accuracy.

WKM Multiple Shapes Wooden Geometrical Model Figure KTN485 (Set of 12 Pcs)

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WKM Multiple Shapes Wooden Geometrical Model Figure KTN485 (Set of 12 Pcs)

By WKM

Set of 1 piece

₹789

WKM Multiple Shapes Wooden Geometrical Model Figure KTN485 (Set of 12 Pcs) is a hands-on teaching tool commonly used in laboratories and educational settings to help students visualize and understand various geometric shapes and figures in three-dimensional (3D) space. These models are typically made of durable materials like plastic, wood, or metal and are designed to accurately represent different geometric shapes.
The geometrical model figure set includes a variety of shapes such as cubes, spheres, pyramids, cylinders, cones, and prisms, each with distinct features and properties. The models are often color-coded or labeled to aid in easy identification and understanding.
In laboratories and educational settings, geometrical model figures serve several essential purposes:
Visual Representation: Geometrical models provide a tangible and visual representation of abstract geometric shapes, allowing students to grasp the concepts of vertices, edges, and faces easily.
Spatial Understanding: By manipulating the physical models, students can explore the spatial relationships between different shapes, enhancing their understanding of dimensions and orientations.
Volume and Surface Area: Geometrical models allow students to observe and compare the volume and surface area of different shapes, helping them comprehend the mathematical relationships between these properties.
Mathematical Concepts: Geometrical models serve as practical tools for teaching mathematical concepts, such as symmetry, congruence, and similarity, in a hands-on manner.
Geometry in the Real World: Students can relate geometric shapes to real-world objects and structures, fostering a deeper understanding of geometry's practical applications.
These models are widely used in geometry lessons, STEM education, and architectural and engineering training. They are particularly valuable for learners who benefit from visual and tactile learning experiences.
Proper care and storage of the geometrical model figure set are essential to ensure its longevity and continued effectiveness in teaching. Regular cleaning and inspection of the models help maintain their accuracy and clarity for optimal learning experiences.
In conclusion, the geometrical model figure set is a valuable educational tool in laboratories and classrooms, offering a hands-on and visual approach to learning geometric shapes and figures in 3D space. Its ability to enhance spatial understanding, mathematical concepts, and real-world applications makes it an invaluable asset in geometry education and related disciplines.

WKM 75 x 50 x 18 mm Glass Slab for Physics Labs KT41 (Pack of 5 Pcs)

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WKM 75 x 50 x 18 mm Glass Slab for Physics Labs KT41 (Pack of 5 Pcs)

By WKM

Pack of 5 piece

₹542 ~~₹1,200~~

You save ₹658!

54.83% OFF

WKM 75 x 50 x 18 mm Glass Slab for Physics Labs KT41 (Pack of 5 Pcs) is a transparent, flat piece of glass that is used in various scientific and optical experiments. It is typically rectangular in shape and has parallel surfaces that are polished to a high degree of smoothness. The glass slab is made from a special type of glass that has a high refractive index, allowing it to bend or refract light as it passes through.
One of the main properties of a glass slab is its ability to refract light. When a beam of light passes through the slab, it changes direction due to the change in speed as it enters and exits the glass. This phenomenon is known as refraction and is governed by Snell's law. The amount of bending or refraction depends on the angle of incidence and the refractive index of the glass slab.
Glass slabs are commonly used in optics experiments to study the behavior of light. For example, they can be used to demonstrate the concept of total internal reflection. By placing a glass slab in a liquid with a lower refractive index, such as water, and shining a beam of light at a certain angle, the light can be made to reflect back into the slab instead of refracting out. This is because the angle of incidence exceeds the critical angle for total internal reflection.
Glass slabs are also used in the construction of optical devices such as prisms and lenses. Prisms are made by combining multiple glass slabs with different angles to create a triangular shape. They are used to disperse white light into its component colors, creating a rainbow-like effect. Lenses, on the other hand, are made by shaping the glass slab into a curved surface. They are used to focus or diverge light, depending on their shape.
In conclusion, a glass slab is a versatile tool in the field of optics. Its ability to refract light and its high transparency make it ideal for studying the behavior of light and constructing optical devices. Whether it is used in experiments or in the production of lenses and prisms, the glass slab plays a crucial role in understanding and manipulating light.

WKM Rocks and Minerals Collection for Earth Science Education KT40 (Set of 50 Pcs)

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WKM Rocks and Minerals Collection for Earth Science Education KT40 (Set of 50 Pcs)

By WKM

Set of 50 piece

₹1,415 ~~₹2,100~~

You save ₹685!

32.62% OFF

WKM Rocks and Minerals Collection for Earth Science Education KT40 (Set of 50 Pcs) is a curated assortment of geological specimens used for educational and research purposes in various scientific disciplines, particularly geology, mineralogy, and earth sciences. The collection typically includes a diverse array of rocks, minerals, and sometimes fossils, each carefully labeled and organized to facilitate learning and examination.
The primary purpose of a rocks and minerals collection is to provide students, researchers, and geologists with tangible examples of Earth's geological diversity. By studying these specimens, individuals can gain a deeper understanding of Earth's history, processes, and the formation of different types of rocks and minerals.
In educational settings, the collection serves as a valuable teaching aid. Students can observe and handle real-life examples of rocks and minerals, making it easier to grasp concepts such as mineral identification, rock classification, and the geological processes that shaped our planet. It fosters a hands-on learning experience, allowing students to develop essential observational and analytical skills.
For researchers and scientists, a rocks and minerals collection provides reference materials for comparison and analysis. It assists in identifying unknown samples encountered in the field or during laboratory experiments. Moreover, the collection can aid in studying the composition, structure, and properties of rocks and minerals, contributing to advancements in geology and related fields.
When assembling a rocks and minerals collection for labs, a wide variety of specimens is chosen to represent different rock types (igneous, sedimentary, and metamorphic) and a diverse range of minerals with varying properties, colors, and crystal structures. Some collections may include economically significant minerals or ores to demonstrate their practical importance.
The specimens in the collection are typically sourced from various geological formations around the world, ensuring a comprehensive representation of Earth's geological diversity. Labels accompany each specimen, providing essential information such as the name, origin, geological context, and other pertinent details.
Overall, a rocks and minerals collection for labs is an invaluable resource for geology education and research. It fosters a deeper appreciation for the Earth's geological processes and materials, enhances scientific knowledge, and inspires curiosity about the natural world.

WKM Natural Finish Geometrical Model Figure KT157BF Pack of 12 Pcs

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WKM Natural Finish Wooden Geometrical Model Figure (Set of 12 Pcs)

By WKM

Pack of 12 piece

₹837 - ₹966

The WKM Natural Finish Wooden Geometrical Model Figure set, consisting of 12 pieces, is a versatile educational tool designed to aid in the visualization and understanding of geometric concepts. Crafted from high-quality wood with a natural finish, these model figures offer durability and aesthetic appeal for classroom and educational use. Key features of the WKM Wooden Geometrical Model Figure set include: 1. Variety of Shapes: The set includes a diverse range of geometric shapes, such as cubes, spheres, cylinders, cones, pyramids, and prisms. This allows students to explore and manipulate different shapes to deepen their understanding of geometry. 2. Hands-On Learning: The wooden model figures provide a tactile and hands-on learning experience, allowing students to physically handle and examine geometric shapes to better comprehend their properties and characteristics. 3. Visualization Tool: The model figures serve as visual aids for illustrating key geometric concepts, including volume, surface area, symmetry, and spatial relationships. They help students visualize abstract geometric ideas in a concrete and tangible form. 4. Natural Finish: The natural finish of the wooden model figures enhances their aesthetic appeal and adds a touch of warmth to the learning environment. It also highlights the natural beauty of the wood grain, making the figures visually appealing and inviting to explore. 5. Educational Value: The WKM Wooden Geometrical Model Figure set promotes active learning and engagement in geometry lessons. It encourages exploration, experimentation, and problem-solving skills, fostering a deeper understanding of geometric principles and applications. Overall, the WKM Natural Finish Wooden Geometrical Model Figure set offers a valuable resource for geometry education, providing students with interactive tools to enhance their learning experience. Its combination of durability, versatility, and educational value makes it an essential addition to classrooms, homeschooling environments, and educational institutions.

Material : Wooden

Type of Product : Geometrical Model Figure

Country of Origin : India

Name of Manufacturer/Packer/Importer : Kamboj Traders

WKM 22 Pulley Metallic Wave Motion Apparatus with Wooden Base KT125Y

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WKM Pulley in Wooden Base Wave Motion Apparatus

By WKM

₹3,775 - ₹4,837

You save ₹3,163!

39.54% OFF

The WKM Pulley in Wooden Base Wave Motion Apparatus combines the functionality of a pulley system with the educational value of a wave motion demonstration. This apparatus is designed to illustrate principles of wave propagation, transmission, and reflection, while also allowing for hands-on experimentation with pulley mechanics. Key features of the WKM Pulley in Wooden Base Wave Motion Apparatus include: 1. Pulley System: The apparatus features a pulley mechanism that allows users to manipulate the motion of a wave-propagating medium, such as a string or rope. By adjusting the tension and length of the medium, users can observe how waves behave under different conditions. 2. Wooden Base: The apparatus is mounted on a sturdy wooden base, providing stability and support during experiments. The wooden base also adds a natural and aesthetic element to the apparatus, making it suitable for display in classrooms and laboratories. 3. Wave Motion Demonstration: The apparatus is equipped with components for generating and observing wave motion, such as a wave generator and wave detector. This allows users to create and analyze various types of waves, including transverse and longitudinal waves, and to study phenomena such as interference and resonance. 4. Educational Value: The WKM Pulley in Wooden Base Wave Motion Apparatus serves as a valuable educational tool for teaching principles of both wave motion and pulley mechanics. It engages students in hands-on experimentation and inquiry-based learning, helping them develop a deeper understanding of these fundamental physics concepts. 5. Versatility: The apparatus is versatile and can be used for a wide range of experiments and demonstrations related to wave motion and pulley systems. It can be adapted to suit different educational levels and learning objectives, making it suitable for use in classrooms, laboratories, and homeschooling environments. Overall, the WKM Pulley in Wooden Base Wave Motion Apparatus offers a unique and engaging way to explore concepts in both wave physics and mechanical engineering. Its combination of functionality, educational value, and aesthetic appeal makes it an excellent choice for enhancing science education.

Type of Product : Wave Motion Apparatus

Country of Origin : India

Name of Manufacturer/Packer/Importer : Kamboj Traders

WKM Full Shaper Double Stainless Steel Rod Optical Bench KTN297

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WKM Full Shaper Double Stainless Steel Rod Optical Bench KTN297

By WKM

₹9,085 ~~₹16,000~~

You save ₹6,915!

43.22% OFF

WKM Full Shaper Double Stainless Steel Rod Optical Bench KTN297 is a versatile and indispensable tool used in laboratories for conducting various experiments and demonstrations in optics and photonics. It provides a stable and precisely aligned platform for assembling and testing optical components and systems, allowing researchers, students, and scientists to investigate the behavior of light and the principles of optics.
The optical bench typically consists of a long, straight rail made of high-quality metal or aluminum. Along the rail, there are adjustable mounts, carriers, and fixtures that securely hold optical components such as lenses, mirrors, prisms, filters, and other elements. These components can be easily moved and positioned along the rail to create different optical arrangements.
One of the primary purposes of the optical bench is to construct and test optical systems, such as telescopes, microscopes, spectrometers, and laser setups. By precisely adjusting the position of optical components, users can optimize the alignment and focus of the system, ensuring maximum performance and accuracy.
In educational settings, an optical bench is frequently used to demonstrate various optical phenomena and principles. For instance, it can be employed to show the formation of images using lenses and mirrors, diffraction patterns, interference effects, and the behavior of light as it passes through different media.
The modular and flexible nature of the optical bench allows researchers and students to design and execute a wide range of experiments, from basic optical demonstrations to more complex research investigations. It provides a hands-on learning experience and facilitates the understanding of fundamental optical concepts.
Additionally, optical benches often feature built-in rulers or scales, enabling precise measurements of distances between optical components and the determination of focal lengths or other optical parameters. This level of precision is critical in accurately characterizing the optical properties of components and systems.
When using an optical bench, careful handling and alignment are essential to achieve reliable and reproducible results. Regular cleaning and maintenance of the optical components and the bench itself are necessary to keep the system in optimal working condition and prevent dust or contaminants from affecting experimental outcomes.
In summary, the optical bench is a versatile and valuable tool in laboratories, supporting a wide range of experiments and demonstrations in optics and photonics. Its stability, precision, and flexibility make it a fundamental platform for researchers and students to explore the behavior of light and advance their understanding of optical phenomena.

WKM Semi Circular Shape Glass Block for Laboratories KTN173

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WKM Semi Circular Shape Glass Block for Laboratories KTN173

By WKM

₹742 ~~₹1,300~~

You save ₹558!

42.92% OFF

WKM Semi Circular Shape Glass Block for Laboratories KTN173 is a specialized laboratory equipment used in a variety of scientific and research settings. They are transparent blocks made of high-quality glass, typically borosilicate glass, which is known for its excellent thermal and chemical resistance. These blocks come in different shapes and sizes, ranging from small rectangular blocks to larger cylindrical vessels, and they serve various purposes in laboratory experiments and processes.
Heating and Stirring: Glass blocks with built-in heating elements and magnetic stirring bars are commonly used in chemistry and biology labs. They provide a controlled and uniform heat source for reactions and allow for continuous mixing of solutions, ensuring efficient and consistent results.
Reactor Vessels: Large glass blocks with thick walls are used as reactor vessels for chemical reactions that require high-temperature and high-pressure conditions. These blocks can withstand harsh conditions and allow researchers to observe the progress of reactions through the transparent walls.
Cuvettes: Glass cuvettes are small rectangular blocks with optical-quality windows used in spectrophotometry. They hold liquid samples for analysis, allowing researchers to measure the absorption or transmission of light through the sample at different wavelengths.
Chamber Slides: Glass blocks with multiple chambers or wells are used in cell culture and microscopy. They provide a controlled environment for cell growth and observation, allowing researchers to study cellular processes under a microscope.
Desiccators: Glass desiccators are airtight containers used to protect moisture-sensitive samples and reagents. They are equipped with a vacuum stopcock and a vacuum pump connection to create a low-humidity environment for preserving the integrity of sensitive materials.
Distillation Apparatus: Glass blocks are an integral part of distillation setups, providing a transparent path for vapor condensation and liquid collection during the distillation process.
Specialized Applications: Glass blocks are used in other specialized applications, such as chromatography, filtration, and titration, where their transparency, chemical resistance, and thermal stability are advantageous.
The use of glass blocks in laboratories is preferred due to their inert nature, which minimizes the risk of contamination of samples or reactions. Their transparency allows researchers to monitor reactions, samples, and processes without disturbing the system.
Proper care and handling of glass blocks are essential to prevent breakage and ensure safety in the laboratory. Regular inspection for cracks, chips, or scratches is crucial to identify damaged blocks that may compromise experimental results.
In conclusion, glass blocks are versatile and indispensable tools in laboratories, facilitating a wide range of experiments and processes. Their transparency, thermal resistance, and chemical inertness make them valuable assets in scientific research, allowing researchers to observe, measure, and control various reactions and analyses.

Ships within 3 days

WKM Vandegraff Generator KT199CV

By WKM

₹6,607

The WKM Vandegraff Generator KT199CV is a high voltage generator that is used to produce high voltage static electricity. It is a type of electrostatic generator that uses a belt to transfer charge from a high voltage source to a metal sphere. The generator is named after its inventor, Robert J. Van de Graaff, who developed the first generator in the 1920s.
The WKM Vandegraff Generator KT199CV consists of a metal sphere, a belt, and two metal combs. The metal sphere is mounted on top of a column and is connected to a high voltage power supply. The belt is made of a non-conductive material, such as rubber or nylon, and is driven by a motor. The two metal combs are positioned on either side of the belt and are connected to ground.
As the belt rotates, it picks up charge from the high voltage power supply and transfers it to the metal sphere. The metal combs on either side of the belt help to transfer the charge to the sphere by creating a corona discharge. This discharge ionizes the air around the combs, creating a path for the charge to flow to the sphere.
The WKM Vandegraff Generator KT199CV can produce voltages of up to several million volts. This high voltage can be used for a variety of applications, such as particle accelerators, X-ray machines, and electrostatic precipitators. The generator is also used in educational settings to demonstrate the principles of electrostatics.
In conclusion, the WKM Vandegraff Generator KT199CV is a high voltage generator that uses a belt to transfer charge from a high voltage source to a metal sphere. It is named after its inventor, Robert J. Van de Graaff, and can produce voltages of up to several million volts. The generator is used in a variety of applications, including particle accelerators, X-ray machines, and electrostatic precipitators, and is also used in educational settings to demonstrate the principles of electrostatics.

WKM 25.5 x 3 x 2 Inch Inclined Plane KTN392

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WKM 25.5 x 3 x 2 Inch Inclined Plane KTN392

By WKM

₹1,297

The WKM 25.5 x 3 x 2 Inch Inclined Plane KTN392 is a simple machine that is used to lift heavy objects with less force. It is a flat surface that is inclined at an angle, which allows objects to be moved up or down the plane with less effort than lifting them straight up. The inclined plane is a basic tool that has been used for centuries, and it is still widely used today in various industries.
The WKM 25.5 x 3 x 2 Inch Inclined Plane KTN392 is made of high-quality materials that are durable and long-lasting. It is designed to withstand heavy loads and can be used in a variety of applications. The inclined plane has a non-slip surface that provides a secure grip for objects, preventing them from slipping or sliding down the plane.
The WKM 25.5 x 3 x 2 Inch Inclined Plane KTN392 is easy to use and requires minimal effort to lift heavy objects. It is ideal for use in warehouses, factories, and other industrial settings where heavy lifting is required. The inclined plane can also be used in construction sites, where it can be used to move heavy materials such as bricks, cement, and steel.
In conclusion, the WKM 25.5 x 3 x 2 Inch Inclined Plane KTN392 is a simple yet effective tool that can make heavy lifting easier and more efficient. It is made of high-quality materials, is easy to use, and can be used in a variety of applications. Whether you are working in a warehouse, factory, or construction site, the inclined plane can help you move heavy objects with less effort and strain on your body.

WKM Inclined Plane and Friction Board Fitted with Arc IL-01QS-U9YE

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WKM Inclined Plane and Friction Board Fitted with Arc IL-01QS-U9YE

By WKM

₹1,533

The WKM inclined plane and friction board fitted with Arc IL-01QS-U9YE is a scientific apparatus used to study the principles of friction and motion. The inclined plane is a flat surface that is inclined at an angle to the horizontal plane. The friction board is a flat surface that is used to measure the force of friction between two surfaces.
The Arc IL-01QS-U9YE is a sensor that is fitted to the friction board. It is used to measure the force of friction between the board and the object that is placed on it. The sensor is connected to a computer, which records the data and displays it on the screen.
To use the apparatus, an object is placed on the friction board and the angle of the inclined plane is adjusted. The object is then released and allowed to slide down the inclined plane. The Arc IL-01QS-U9YE measures the force of friction between the object and the board as it slides down the plane.
The data collected by the sensor can be used to calculate the coefficient of friction between the object and the board. This coefficient is a measure of the amount of friction between the two surfaces. It is an important parameter in many engineering and scientific applications.
The WKM inclined plane and friction board fitted with Arc IL-01QS-U9YE is a versatile apparatus that can be used to study a wide range of phenomena related to friction and motion. It is commonly used in physics and engineering laboratories to teach students about the principles of friction and motion. It is also used in research to study the behavior of materials under different conditions of friction and motion.

WKM Electric Generator Working Model KT149AX

Ships within 3 days

WKM Electric Generator Working Model KT149AX

By WKM

₹896

The WKM Electric Generator Working Model KT149AX is a small-scale electric generator that is designed to demonstrate the principles of electrical generation. It is a simple and easy-to-use model that can be used in classrooms, science fairs, and other educational settings to teach students about the basics of electricity and magnetism.
The generator consists of a rotor, stator, and a set of magnets. The rotor is a rotating component that is driven by a motor, while the stator is a stationary component that contains the coils of wire that generate the electrical current. The magnets are mounted on the rotor and create a magnetic field that induces an electrical current in the coils of wire in the stator.
When the rotor is rotated, the magnets on the rotor create a magnetic field that passes through the coils of wire in the stator. This magnetic field induces an electrical current in the coils of wire, which is then transmitted through the wires to an external load, such as a light bulb or a motor.
The WKM Electric Generator Working Model KT149AX is designed to be easy to assemble and use. It comes with a set of instructions that guide users through the assembly process, and it can be powered by a battery or a power supply. The generator is also designed to be safe to use, with a protective cover that prevents users from coming into contact with the moving parts.
Overall, the WKM Electric Generator Working Model KT149AX is a useful tool for teaching students about the principles of electrical generation. It is a simple and easy-to-use model that can be used to demonstrate the basic concepts of electricity and magnetism, and it is a great way to get students interested in science and engineering.

Ships within 3 days

WKM Newton's Color Disc KT148AW

By WKM

₹612

WKM Newton's Color Disc KT148AW is a scientific tool used to demonstrate the concept of color mixing and the formation of white light. The disc is made up of seven different colors, namely red, orange, yellow, green, blue, indigo, and violet, arranged in a circular pattern. The colors are arranged in a specific order, following the sequence of colors in a rainbow.
The disc is mounted on a motorized spindle, which rotates the disc at a high speed. When the disc is spinning, the colors blend together, creating the illusion of white light. This phenomenon is known as additive color mixing, where the colors are added together to form a new color.
The disc also has a small hole in the center, which allows a small amount of white light to pass through. When the disc is spinning, the white light passes through the colored segments, and the colors are subtracted from the white light, creating the illusion of the original colors.
The WKM Newton's Color Disc KT148AW is a useful tool for teaching students about the properties of light and color. It helps students understand the concept of color mixing and how different colors can be combined to create new colors. It also helps students understand the difference between additive and subtractive color mixing.
In conclusion, the WKM Newton's Color Disc KT148AW is a valuable tool for science teachers and students. It provides a fun and interactive way to learn about the properties of light and color, and it helps students understand complex scientific concepts in a simple and easy-to-understand way.

WKM Motorized Wooden Day and Night Model for School Laboratories KT105E

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WKM Motorized Wooden Day and Night Model for School Laboratories KT105E

By WKM

₹2,123 ~~₹3,000~~

You save ₹877!

29.23% OFF

The WKM Motorized Wooden Day and Night Model (KT105E) is an innovative and educational tool designed for school laboratories. This model provides a hands-on experience for students to understand the concept of day and night and the rotation of the Earth.
The model consists of a wooden base with a motorized rotating mechanism. It also includes a globe representing the Earth, a light source, and a semi-transparent dome. The globe is mounted on the rotating mechanism, allowing it to mimic the Earth's rotation.
To operate the model, students need to connect the motor to a power source. Once the motor is activated, the globe starts rotating, simulating the Earth's rotation. The light source is positioned in a way that it shines on the globe, creating a day and night effect. As the globe rotates, different parts of it are illuminated, representing day, while the other parts remain in darkness, representing night.
This model is an excellent tool for teaching students about the Earth's rotation and its impact on day and night. By observing the model in action, students can visualize how the rotation of the Earth causes the sun to appear to rise and set, creating the cycle of day and night.
Additionally, the semi-transparent dome allows students to see the illuminated and darkened parts of the globe more clearly. This feature enhances their understanding of how the Earth's rotation affects the distribution of sunlight across different regions.
The WKM Motorized Wooden Day and Night Model is not only educational but also durable and easy to use. The wooden base provides stability, ensuring that the model remains steady during operation. The motorized mechanism is designed to be user-friendly, allowing students to easily activate and control the rotation speed.
Overall, the WKM Motorized Wooden Day and Night Model (KT105E) is an excellent addition to school laboratories. It provides an interactive and engaging way for students to learn about the Earth's rotation and the concept of day and night. By using this model, students can develop a deeper understanding of these fundamental concepts in a hands-on and visually stimulating manner.

WKM Yellow Color Geometrical Model Figures for Schools KT107G (Set of 4 Pcs)

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WKM Yellow Color Geometrical Model Figures for Schools KT107G (Set of 4 Pcs)

By WKM

Set of 4 piece

₹424 ~~₹850~~

You save ₹426!

50.12% OFF

The WKM Yellow Color Geometrical Model Figures for Schools KT107G is a set of 4 pieces that are designed to help students understand and visualize various geometrical concepts. These model figures are made of high-quality plastic material and are colored in a vibrant yellow shade, making them visually appealing and engaging for students.
The set includes four different geometrical shapes - a cube, a cylinder, a cone, and a sphere. Each shape is carefully crafted to accurately represent its real-life counterpart, allowing students to easily identify and differentiate between different geometrical figures. The yellow color of the models adds an element of fun and excitement to the learning process, making it more enjoyable for students.
These model figures are specifically designed for use in schools, making them an ideal tool for teachers to use during geometry lessons. They can be used to introduce new concepts, demonstrate properties of different shapes, and facilitate hands-on learning experiences. The models can be passed around the classroom, allowing students to examine and explore them closely, enhancing their understanding of geometrical concepts.
The WKM Yellow Color Geometrical Model Figures for Schools KT107G are not only visually appealing but also durable and long-lasting. They are made of sturdy plastic material that can withstand regular use in a classroom setting. The models are also lightweight and easy to handle, making them suitable for students of all ages.
In conclusion, the WKM Yellow Color Geometrical Model Figures for Schools KT107G is a valuable educational tool for teaching geometry in schools. The set of 4 pieces, including a cube, cylinder, cone, and sphere, are accurately designed and colored in a vibrant yellow shade. These models can be used to introduce and reinforce geometrical concepts, allowing students to visualize and understand different shapes. With their durability and lightweight design, these model figures are a practical choice for classroom use.

WKM 203.2 mm (8 Inch) Variable Sliding Rehostat for School and College Labs KT31

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WKM Black and Grey Color Rheostat for Physics Labs

By WKM

₹907 - ₹1,297

You save ₹203!

13.53% OFF

The WKM Black and Grey Color Rheostat designed for physics labs is an essential apparatus used to control electrical resistance and current flow in circuits during laboratory experiments. This rheostat is specifically tailored for physics laboratories, where students conduct experiments to explore electrical principles and phenomena. Featuring a durable construction with a resistance wire wound around a ceramic or metal core, this rheostat ensures reliable and accurate performance. The black and grey color scheme provides a professional appearance and makes it easy to distinguish from other equipment in the laboratory. Students can adjust the resistance of the rheostat by moving a sliding contact along the length of the resistance wire. This allows them to vary the flow of electric current in a circuit, observe its effects on voltage and current, and study concepts such as Ohm's law and electrical power dissipation. The WKM Black and Grey Color Rheostat for physics labs offers students a hands-on learning experience, enabling them to conduct experiments and gain practical insights into electrical circuits and their behavior. It serves as a valuable educational tool for teaching fundamental principles of electricity and electronics in physics curriculum at various educational levels.

Country of Origin : India

Name of Manufacturer/Packer/Importer : Kamboj Traders

WKM Glass Jar and Aluminium Foil 304.8 mm (12 Inch) Whimshurts Machine KT200CW

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WKM Glass Jar and Aluminium Foil 304.8 mm (12 Inch) Whimshurts Machine KT200CW

By WKM

₹5,781 ~~₹8,900~~

You save ₹3,119!

35.04% OFF

The WKM Glass Jar and Aluminium Foil 12 inch Whimshurts Machine KT200CW is a scientific apparatus designed to demonstrate the principles of electrostatics and static electricity. The Whimshurst machine, also known as an influence machine, is an electrostatic generator that generates high voltages through the triboelectric effect and induction.
The main components of the Whimshurst machine are a set of rotating disks, metal brushes, Leyden jars (glass jars used for storing electric charge), and aluminum foil sectors. The machine operates by rotating two large disks in opposite directions, which are mounted on a common axis. The disks have metal brushes that rub against metal sectors, creating a build-up of static charge through the triboelectric effect.
The Leyden jars play a crucial role in the operation of the Whimshurst machine. They are used to store electric charge and provide a means to demonstrate the discharge of static electricity. The aluminum foil sectors on the machine are connected to the Leyden jars, allowing the charge to be stored and later released.
When the machine is in operation, it generates a high voltage and stores it in the Leyden jars. The accumulation of charge on the Leyden jars creates a potential difference between their terminals, leading to sparks or electric discharges when the jars are discharged. This phenomenon is commonly observed in demonstrations, creating impressive and visually captivating electrical sparks.
The Whimshurst machine is commonly used in educational settings, science museums, and physics demonstrations to illustrate the principles of static electricity and electrostatics. It helps students and audiences understand concepts like charge accumulation, electric potential, and the transfer of electric charge.
The WKM Glass Jar and Aluminium Foil 12 inch Whimshurst Machine KT200CW is designed with safety in mind, with appropriate insulation and protective features to prevent accidental electric shocks during operation.
In conclusion, the WKM Glass Jar and Aluminium Foil 12 inch Whimshurst Machine KT200CW is a captivating and educational scientific apparatus that demonstrates the fascinating phenomena of static electricity. Its components, including rotating disks, metal brushes, Leyden jars, and aluminum foil sectors, work together to generate and store high voltages, producing electric sparks and discharges. The Whimshurst machine is a valuable teaching tool, offering hands-on experiences and visual demonstrations to enhance the understanding of electrostatics and inspire curiosity in the world of physics.

WKM Steel Newton Cradle with Steel Balls for Study or Gift Pupose KT170BS

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WKM Steel Newton Cradle with Steel Balls for Study or Gift Pupose KT170BS

By WKM

₹2,713

The WKM Steel Newton Cradle with Steel Balls for Study or Gift Purpose KT170BS is an intriguing and educational desk toy that demonstrates the principles of conservation of momentum and energy. The Newton's cradle is a classic physics device that serves as both a fascinating display piece and a learning tool for understanding fundamental concepts in mechanics.
The cradle is constructed with a sturdy steel frame, providing durability and stability. It typically consists of five steel balls suspended from thin steel wires or strings. The steel balls are precisely balanced, ensuring smooth and precise movement when set in motion.
When one or more balls on one end of the cradle are pulled back and released, they swing forward and collide with the stationary balls at the opposite end. The impact causes the last ball in the row on the opposite side to swing out, while the rest remain stationary. This movement demonstrates the conservation of momentum, where the total momentum before and after the collision remains constant.
As the last ball swings outward and gains momentum, it then collides with the adjacent balls on the opposite end. This results in a chain reaction of collisions, causing the same number of balls on the opposite side to swing outward. The process continues until the energy is dissipated due to friction and air resistance, eventually causing the motion to come to a stop.
The WKM Steel Newton Cradle is not only an educational tool for students to learn about fundamental physics principles, but it is also a visually captivating display piece that can adorn desks, shelves, or office spaces. Its elegant and polished design makes it suitable for gifting purposes, whether for students, physics enthusiasts, or anyone who appreciates the beauty of science in action.
The device serves as a thought-provoking and interactive addition to educational settings, offices, or homes, encouraging discussions on physics concepts and sparking curiosity in scientific phenomena. By observing the mesmerizing motion of the steel balls, individuals can gain a deeper appreciation for the laws of physics governing the world around us.
In summary, the WKM Steel Newton Cradle with Steel Balls KT170BS is a versatile and engaging educational tool and decorative piece. Its sturdy steel construction, precise movements, and clear demonstration of momentum and energy conservation make it an excellent choice for studying physics principles, enhancing learning experiences, and adding a touch of scientific wonder to any environment.

WKM Reflection of Sound on Drawing Board for School and College Labs KT155BD

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WKM Reflection of Sound on Drawing Board for School and College Labs KT155BD

By WKM

₹1,651 ~~₹2,600~~

You save ₹949!

36.5% OFF

The WKM Reflection of Sound on Drawing Board for School and College Labs KT155BD is an educational apparatus designed to demonstrate and study the phenomenon of sound reflection in a controlled and visual manner. It is commonly used in physics laboratories at school and college levels to help students understand the behavior of sound waves when they encounter different surfaces.
The apparatus typically consists of a drawing board with a sound source and a movable barrier. The drawing board is usually made of a rigid material with a smooth surface, providing a suitable platform for sound reflection experiments. The sound source, often a speaker or a tuning fork, emits sound waves towards the drawing board.
The movable barrier is an important component of the setup, as it allows students to change the angle of incidence of the sound waves. By adjusting the barrier's position, students can observe how the incident sound waves interact with the barrier and study the resulting sound patterns formed by sound reflection.
When the sound waves encounter the drawing board's surface, some of them get absorbed, but the majority reflect back towards the barrier. Students can observe the angle of incidence and the angle of reflection, and they can draw these angles on the drawing board to visualize the principle of sound reflection.
The apparatus enables students to experiment with various barrier positions and sound frequencies, providing hands-on experience in studying the factors that affect sound reflection. This interactive approach helps students grasp the concept of sound wave behavior, including the law of reflection, which states that the angle of incidence is equal to the angle of reflection.
Using the WKM Reflection of Sound on Drawing Board KT155BD, students can explore real-life scenarios where sound reflection occurs, such as in auditoriums, concert halls, and even in natural surroundings. They can also study how materials and surfaces impact sound reflection, leading to better understanding and appreciation of acoustics and sound engineering principles.
In summary, the WKM Reflection of Sound on Drawing Board for School and College Labs KT155BD is an invaluable tool for physics education, providing students with a visual and hands-on approach to learning about sound reflection. Through interactive experiments and observations, students can develop a deeper understanding of sound wave behavior and its practical applications in various settings.

WKM 25 mm x 25 mm Equilateral Glass Prism for School and College Labs KT139AN

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WKM 25 mm x 25 mm Equilateral Glass Prism for School and College Labs KT139AN

By WKM

₹282 ~~₹400~~

You save ₹118!

29.5% OFF

The WKM 25 mm x 25 mm Equilateral Glass Prism for School and College Labs KT139AN is an optical tool designed for educational purposes in school and college laboratories. It is a triangular prism made of high-quality glass, with each face measuring 25 mm in length, forming an equilateral triangle.
The equilateral glass prism is an essential tool for studying and understanding the principles of optics, specifically related to the behavior of light as it passes through different materials and shapes. Due to its equilateral design, each angle of the prism measures 60 degrees, making it symmetrical and uniform.
One of the primary uses of the equilateral glass prism is to demonstrate the phenomenon of dispersion. Dispersion is the process by which white light is split into its constituent colors when passing through a medium, such as glass, due to the variation in refractive indices for different wavelengths of light. When light enters one face of the prism and exits through another, it undergoes refraction and dispersion, creating a beautiful spectrum of colors, commonly known as a rainbow.
The prism is also employed to illustrate the concept of total internal reflection. When light travels from a denser medium (glass) to a less dense medium (air), it can undergo total internal reflection if the angle of incidence is greater than the critical angle for the material. This effect is crucial in understanding the working principles of optical fibers and other important optical devices.
Additionally, the equilateral glass prism can be used to investigate the concept of minimum deviation. When a ray of light passes through the prism, it undergoes deviation due to refraction. The angle at which the light exits the prism is known as the angle of deviation. For an equilateral prism, the angle of deviation is minimum, making it an ideal tool for studying this phenomenon.
Overall, the WKM 25 mm x 25 mm Equilateral Glass Prism for School and College Labs KT139AN is a valuable optical tool for educational institutions. It helps students comprehend the fundamental concepts of optics through hands-on experiments and demonstrations, fostering a deeper understanding of how light interacts with different materials and shapes. Its durability and precision make it a reliable choice for conducting experiments in school and college laboratories.

WKM Electric Generator Working Model for School and College Labs KTBR93

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WKM Electric Generator Working Model for School and College Labs KTBR93

By WKM

₹999

WKM Electric Generator Working Model for School and College Labs KTBR93 is a physical representation of a device that converts mechanical energy into electrical energy through the principle of electromagnetic induction. It is a valuable educational tool used in laboratories and educational institutions to demonstrate the fundamental concepts of electricity generation and understand the working principles of electric generators.
The working model typically consists of a rotor (the rotating component) and a stator (the stationary component). The rotor is connected to a shaft and is placed within a coil of wire. The stator contains a set of magnets or electromagnets arranged in a circular fashion around the coil.
When the rotor is set in motion by an external force, such as turning a crank or rotating a wheel, it causes the magnetic field lines from the magnets in the stator to cut across the coil of wire. This relative motion between the magnetic field and the coil induces an electromotive force (EMF) or voltage across the coil, according to Faraday's law of electromagnetic induction.
The induced voltage creates an electric current to flow through the coil, generating electrical energy that can power a light bulb, a small motor, or other electrical devices connected to the output of the generator model.
The electric generator working model helps students and learners grasp the essential principles of electricity generation and the interplay between magnetism and electrical currents. It illustrates the concept that mechanical work applied to the generator (rotor) results in the production of electrical energy, which is a fundamental concept in the field of electromagnetism.
Moreover, the working model serves as a platform for various experiments and demonstrations, allowing students to investigate how factors like rotor speed, magnetic strength, and coil size affect the output voltage and current of the generator.
In more advanced laboratories, the working model can be used to demonstrate the concept of energy conversion and explore the efficiency of electric generators, as well as the differences between different types of generators, such as alternators and direct current (DC) generators.
Overall, the electric generator working model is a valuable tool for experiential learning and conceptual understanding of electricity generation. Its hands-on approach enables students to bridge theory with practical applications and fosters a deeper appreciation for the technology that powers our modern world.

WKM 1 to 500 Ohms PVC and Wooden Resistance Box for Physics Labs KT84

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WKM Resistant Plug Box for School or College Labs

By WKM

₹1,887 - ₹2,241

You save ₹1,113!

37.1% OFF

The WKM Resistant Plug Box designed for school or college labs is a robust and versatile electrical accessory used to safely connect and distribute power to various electrical devices and instruments in laboratory settings. This plug box is specifically engineered to withstand the rigors of educational environments and provide students with a reliable and convenient power supply solution for their experiments and projects. Featuring a durable construction with high-quality materials, the resistant plug box ensures long-lasting performance and resistance to wear and tear. It is equipped with multiple power outlets or sockets, allowing students to easily connect their electrical equipment, such as computers, instruments, or experimental setups, to a single power source. The plug box is designed with safety in mind, incorporating features such as overload protection, surge protection, and shock-resistant casing to minimize the risk of electrical hazards and accidents in the laboratory. Additionally, it may include indicators or switches for monitoring and controlling power flow, providing students with a practical learning experience in electrical safety and management. The WKM Resistant Plug Box for school or college labs serves as an essential infrastructure component for facilitating hands-on learning and experimentation in science and technology disciplines. It provides students with a safe and reliable power distribution solution, enabling them to conduct experiments, demonstrations, and projects with confidence and efficiency.

Type of Product : Resistant Plug Box

Country of Origin : India

Name of Manufacturer/Packer/Importer : Kamboj Traders

WKM 50x50 mm Optical Glass Equilateral Prism KTN399 (Pack of 5 Pcs)

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WKM 50x50 mm Optical Glass Equilateral Prism KTN399 (Pack of 5 Pcs)

By WKM

Pack of 5 piece

₹943 ~~₹1,500~~

You save ₹557!

37.13% OFF

WKM 50 x 50 mm Optical Glass Equilateral Prism KTN399 (Pack of 5 Pcs) is a three-sided optical element with three equal sides and three equal angles of 60 degrees each. It is typically made of a transparent material, such as glass or acrylic, and has a triangular cross-section. Equilateral prisms are used in laboratories for various optical experiments and applications due to their unique properties in handling light.
In laboratories, equilateral prisms find numerous applications:
Dispersion of Light: When a beam of white light enters an equilateral prism, it undergoes dispersion, meaning that the different colors of light (wavelengths) are separated and spread out. This phenomenon is known as chromatic dispersion, and it forms the basis of many optical experiments, such as studying the spectrum of light.
Reflection and Refraction: Equilateral prisms are used to manipulate the path of light through reflection and refraction. When light passes through one of the faces of the prism, it can either be reflected off one of the faces or refracted as it exits the prism, depending on the angle of incidence.
Total Internal Reflection: Equilateral prisms can create total internal reflection within the prism by setting the angle of incidence greater than the critical angle. This effect is used in various applications, including light pipes and optical fibers.
Optical Beam Steering: By rotating or tilting the prism, researchers can change the direction of the light beam passing through it, making equilateral prisms valuable for optical beam steering and manipulation.
Index of Refraction Determination: Equilateral prisms are used in experiments to determine the index of refraction of transparent materials by measuring the angles of incidence and refraction.
Equilateral prisms are also used in combination with other optical elements, such as lenses and mirrors, to create more complex optical systems in laboratories.
The precision and accuracy of an equilateral prism are crucial for obtaining reliable results in optical experiments. The quality of the material and the accuracy of the angles and surfaces play a significant role in the prism's performance.
In conclusion, equilateral prisms are essential optical elements in laboratories, offering unique properties that allow researchers to study and manipulate light in various experiments and applications. Their ability to disperse light, perform reflection and refraction, and enable total internal reflection makes them valuable tools for optical research and experimentation.

WKM PNJN Semi Conductor Diode Junction Box for School or College Labs KTN283

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WKM PNJN Semi Conductor Diode Junction Box for School or College Labs KTN283

By WKM

₹2,713 ~~₹3,700~~

You save ₹987!

26.68% OFF

WKM PNJN Semi Conductor Diode Junction Box for School or College Labs KTN283 is a specialized device used in laboratory settings to facilitate the connection and integration of semiconductor diodes into various electronic circuits and experimental setups. This junction box is designed to provide a central point for managing multiple semiconductor diodes with PN junctions, allowing researchers, scientists, and technicians to easily configure and control the behavior of diodes in their experiments.
Semiconductor diodes are essential electronic components that allow current to flow in one direction only. They are made from semiconductor materials like silicon or gallium arsenide and have two terminals: an anode (positive) and a cathode (negative). When a forward voltage is applied across the diode, it permits current flow, but when a reverse voltage is applied, it blocks current flow.
The junction box for semiconductor diodes in laboratories typically consists of a well-designed enclosure with electrical terminals and connections. Inside the box, multiple semiconductor diodes can be securely mounted and wired according to the specific experimental requirements. These diodes can be of different types, such as light-emitting diodes (LEDs), photodiodes, or rectifier diodes, each serving various purposes in the lab experiments.
The primary purpose of the junction box is to simplify the setup and management of multiple diodes in a single circuit. Researchers can easily adjust voltages, currents, and connections through the junction box, enabling them to investigate various phenomena related to semiconductor diodes.
Laboratories use semiconductor diode junction boxes in a wide range of applications. For example, in optics and photonics experiments, the junction box may house different types of photodiodes for detecting and measuring light intensities. In electronics research, it can be utilized to build and test different diode-based circuits, such as rectifiers or voltage regulators. The junction box's versatility and flexibility make it an indispensable tool for conducting diverse experiments and projects related to semiconductor diode technology.
As technology evolves, modern semiconductor diode junction boxes may include additional features like built-in current and voltage controllers, temperature regulation, and digital interfaces for remote control and data acquisition, making them even more powerful and convenient for laboratory research and development.

WKM 6x3x3 cm Two Way Plug Key for School and College Labs KTN274

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WKM 6x3x3 cm Two Way Plug Key for School and College Labs KTN274

By WKM

₹424 ~~₹500~~

You save ₹76!

15.2% OFF

WKM 6 x 3 x 3 cm Two Way Plug Key for School and College Labs KTN274 is a type of variable resistor used in electrical circuits, primarily in educational and laboratory settings. It is a combination of a plug key (also known as a switch) and a resistor, which allows users to control the amount of resistance in the circuit by adjusting the position of the plug key.
The main components of a two-way plug key resistance include:
Plug Key: The plug key acts as a switch that can be inserted or removed from the circuit to control the flow of current. When the key is inserted, the circuit is closed, and current can flow through the resistor. When the key is removed, the circuit is open, and current is interrupted.
Variable Resistor: The resistor is connected in series with the plug key and offers a specific amount of resistance to the flow of current. The resistor's resistance value can be adjusted by changing the position of the plug key along the resistor's length.
The resistance of the two-way plug key resistance can be varied by sliding the plug key along the resistor. When the plug key is at one end of the resistor, the resistance is minimum (almost zero), as the current flows unimpeded through the shortest length of the resistor. As the plug key is moved along the resistor, the effective length of the resistive path increases, resulting in higher resistance. When the plug key is at the other end of the resistor, the resistance is maximum, as the current has to pass through the entire length of the resistor.
Two-way plug key resistances are commonly used in physics and electrical laboratories for educational demonstrations and experiments, especially those related to Ohm's law, resistance, and circuit analysis. Students can observe the relationship between resistance, current, and voltage by adjusting the plug key's position and measuring the corresponding changes in the circuit.
These resistances provide a practical and hands-on way for students to understand the concept of variable resistance and the importance of switches in controlling current flow. They also help students grasp the concept of resistors' role in regulating and limiting the amount of current in electrical circuits, ensuring safe and efficient operation.
In conclusion, a two-way plug key resistance is a versatile educational tool used in laboratories to teach students about variable resistance and circuit control. By combining a plug key with a resistor, it allows users to adjust the resistance in the circuit by changing the position of the plug key. Through these demonstrations, students gain valuable insights into the behavior of electrical circuits and deepen their understanding of electrical principles and components.

Page 1 of 1 results

Product Name	Expected Price	Dispatch Time	Discount
WKM Inclined Plane and Friction Board Fitted with Arc IL-01QS-U9YE	₹1,533	3 days	--
WKM Rocks and Minerals Collection for Earth Science Education KT40 (Set of 50 Pcs)	₹1,415	4 days	32.62% OFF
WKM Newton's Cradle with Steel Balls KTN376	₹3,067	3 days	--
WKM 254 mm(10 Inch) 1.8 A 100 Rheostat for School and College Labs KTN93	₹2,123	4 days	29.23% OFF
RANDHAWA GLOBAL Decade Resistance Box 1 to 10000 Ω and 4 Dials, RG-77091	₹4,011	10 days	19.76% OFF
Prominent Mercury Vapour Lamp MVl160P	₹5,073	15 days	--
WKM Globe 14-BDQZ-VOJ8	₹1,037	4 days	--
WKM Vandegraff Generator KT199CV	₹6,607	3 days	--
WKM Electric Generator Working Model KT149AX	₹896	3 days	--

WKM Physics Model

Top Selling WKM Physics Model Products Price List for April 2026