Sport Robot – Energy transformation – Electric energy to kinetec energy conversion
29,00 AED
Science comes to life through a sport robot that showcases the remarkable transformation of electric energy into kinetic energy, enabling the robot to perform athletic actions. This interactive experience introduces young learners to the fundamental principles of energy conversion in an exciting and educational way.
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Product Details
Objective:
Demonstrate a model of a Sport Robot to illustrate the conversion of electric energy into kinetic energy for sports-related activities
Materials included:
Robot chassis or frame
Electric motors or actuators
Wheels or limbs for sports activities (e.g., soccer ball kicker, basketball shooter)
Battery or power source
Wiring and connectors
Materials not included in the kit:
Procedure and assembly steps:
Procedure included in the kit manual . This is not a ready made product. Student needs to follow the steps to assemble the model…
Description:
Electric to Kinetic Energy Transformation in a Sport Robot
Description: Science comes to life through a sport robot that showcases the remarkable transformation of electric energy into kinetic energy, enabling the robot to perform athletic actions. This interactive experience introduces young learners to the fundamental principles of energy conversion in an exciting and educational way.
The Scientific Theory: The sport robot model provides an engaging example of energy transformation, where electric energy is converted into kinetic energy, allowing the robot to move and perform athletic tasks. Here’s how it works:
- Power Source: The sport robot is equipped with a battery or a rechargeable battery pack as its power source. These batteries store electrical energy.
- Electric Motor: Inside the robot’s body, there’s an electric motor responsible for driving its movements. When the robot is activated, it completes an electrical circuit, enabling the stored electric energy to flow to the motor.
- Conversion Begins: The electric motor’s primary function is to convert electrical energy into kinetic energy. It accomplishes this by using the electrical energy to drive various mechanical components.
- Mechanical Motion: The electric motor’s movement is transmitted to the robot’s limbs or wheels through a system of gears, levers, or other mechanical components. This mechanical motion is a form of kinetic energy.
- Athletic Actions: The robot’s limbs or wheels move in response to the mechanical motion generated by the electric motor. This kinetic energy allows the robot to perform sports-related actions, such as kicking a ball, running, or jumping.
- Continued Activity: As long as there is electrical energy stored in the batteries and the circuit remains complete, the conversion from electric energy to kinetic energy continues, enabling the sport robot to engage in various athletic activities.
Learning outcome:
Have a better understanding of a Sport Robot to illustrate the conversion of electric energy into kinetic energy for sports-related activities using the model built by the student in this project
Section or subject:
Physics
Grades:
6+
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