Yes. A yo-yo has some kinetic energy imparted into it by the flick of the wrist at the start of its motion.
A yo-yo uses kinetic energy as it moves up and down, converting potential energy into motion as it spins on its string.
A yo-yo has kinetic energy when it is in motion. As it moves up and down, the yo-yo's motion generates kinetic energy due to its velocity and mass. This kinetic energy is converted from the potential energy stored in the yo-yo when it was at rest.
Yes, a yo-yo can be considered a simple machine. It consists of a wheel and axle that allows for rotational motion, making it a basic example of a mechanical device that can store and release energy.
I don't no
Yes, a yo-yo has gravitational potential energy. When a yo-yo is lifted, work is done against gravity, storing potential energy in the yo-yo. This energy is released as the yo-yo is allowed to fall back down.
A yo-yo uses kinetic energy as it moves up and down, converting potential energy into motion as it spins on its string.
A yo-yo has kinetic energy when it is in motion. As it moves up and down, the yo-yo's motion generates kinetic energy due to its velocity and mass. This kinetic energy is converted from the potential energy stored in the yo-yo when it was at rest.
It does demonstrate stored energy and energy return, so I guess that would qualify .
Potential - Kinetic - Potiential again as you drop the yo yo, the potential energy it had at its height is converted to kinetic energy. as it starts to come back up, it is converted back to potential energy
Yes, a yo-yo can be considered a simple machine. It consists of a wheel and axle that allows for rotational motion, making it a basic example of a mechanical device that can store and release energy.
pick yo but
I don't no
Yes, a yo-yo has gravitational potential energy. When a yo-yo is lifted, work is done against gravity, storing potential energy in the yo-yo. This energy is released as the yo-yo is allowed to fall back down.
The main force that causes a yo-yo to slow down and stop is friction between the yo-yo string and the axle of the yo-yo. As the string rubs against the axle, it generates heat and dissipation of energy, leading to a decrease in the yo-yo's rotational motion until it comes to a halt.
When you hold a yo-yo in your hand, it has potential energy due to its position above the ground. This potential energy would transform into kinetic energy as the yo-yo falls and unwinds when released.
Before a yo yo is released, it has maximum potential energy and zero kinetic energy. As the yo yo goes down the string, its kinetic energy increases and it potential energy decreases. When the yo yo reaches the bottom of the string it has maximum kinetic energy and zero potential energy. As the yo yo goes back up the string, its kinetic energy decreases and potential energy increases until the yo yo reaches the top of the string, at which point kinetic energy is zero and potential energy is at its maximum.
When the yo-yo is being held in the person's hand, it has maxium potential energy, and zero kinetic energy. When the yo-yo drops on the string from the person's hand, it's velocity increases due to the acceleration due to gravity, increasing kinetic energy and reducing potential energy. When the yo-yo is at its greatest distance from the person's hand, it has maximum kinetic energy, and zero potential energy. When the yo-yo moves back up the string, its kinetic energy decreases and its potential energy increases. Once the yo-yo is back in the person's hand, it again has maximum potential energy, and zero kinetic energy.