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Some examples of objects not driven by electricity include a bicycle, a wind-up toy, a gas-powered car, and a traditional mechanical watch.
The speed of a solar-powered toy car depends on various factors such as the size of the car, the power of the solar panel, and the design of the car. On average, solar-powered toy cars can reach speeds of 1-2 meters per second.
In a toy car, a battery converts chemical energy into electrical energy, which powers a motor. The motor then uses this electrical energy to produce mechanical motion that drives the toy car forward. This transformation of energy from chemical to motion occurs through the process of electromechanical conversion.
A magnetic powered toy car works by using magnets to create a magnetic field that interacts with other magnets in the car. When the magnets repel or attract each other, they create a force that propels the car forward. This force is harnessed to make the toy car move without the need for batteries or external power sources.
It depends on the type of toy car. In a simple wind-up version, mechanical energy, of a spring under tension, is converted to kinetic energy and noise and a small amount of heat. In battery powered cars, chemical energy from the batteries is converted to electricity which in turn is converted to kinetic energy and waste.
Electric power for any of the electric cars out there comes from normal household power sources. This is stored in a battery until the toy is ready to be played with.
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mechanical energy
Some examples of objects not driven by electricity include a bicycle, a wind-up toy, a gas-powered car, and a traditional mechanical watch.
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The speed of a solar-powered toy car depends on various factors such as the size of the car, the power of the solar panel, and the design of the car. On average, solar-powered toy cars can reach speeds of 1-2 meters per second.
It's a toy that requires electricity.
In a toy car, a battery converts chemical energy into electrical energy, which powers a motor. The motor then uses this electrical energy to produce mechanical motion that drives the toy car forward. This transformation of energy from chemical to motion occurs through the process of electromechanical conversion.
A magnetic powered toy car works by using magnets to create a magnetic field that interacts with other magnets in the car. When the magnets repel or attract each other, they create a force that propels the car forward. This force is harnessed to make the toy car move without the need for batteries or external power sources.
The diameter of a car tire is 40cm and the diameter of a toy car tire is 18mm. Find the ratio of the diameter of the car to the diameter of the toy car
A plastic toy car