it change into potential energy beace it slows down
In physics, the kinetic energy of an object is the energy that the object possess, due to the fact that the object is moving. When the object/skateboard isn't moving it has no kinetic energy. However when it is given energy such as a push, it would move and keep going until it is stopped by another force, such as a wall.
During a skateboard jump, the skater's potential energy is converted into kinetic energy as they push off the ground and gain speed. As the skater leaves the ground, some of the kinetic energy is transferred into potential energy due to the increase in height. Finally, when the skater lands, the potential energy is converted back into kinetic energy.
Yes, a moving skateboard possesses kinetic energy due to its motion.
The friction between the foot and the ground creates a force that opposes the motion of the skateboard, causing it to slow down. This friction converts the kinetic energy of the skateboard into thermal energy.
When riding a skateboard, your muscular energy is converted into kinetic energy as you push off the ground and move forward. Friction between the wheels and the ground also generates heat energy. The potential energy stored in your body as you bend your knees and prepare for jumps is converted into kinetic energy as you perform tricks.
it change into potential energy beace it slows down
In physics, the kinetic energy of an object is the energy that the object possess, due to the fact that the object is moving. When the object/skateboard isn't moving it has no kinetic energy. However when it is given energy such as a push, it would move and keep going until it is stopped by another force, such as a wall.
kinetic because it is using force. it would be potential if it was at the top of a hill.
During a skateboard jump, the skater's potential energy is converted into kinetic energy as they push off the ground and gain speed. As the skater leaves the ground, some of the kinetic energy is transferred into potential energy due to the increase in height. Finally, when the skater lands, the potential energy is converted back into kinetic energy.
Yes, a moving skateboard possesses kinetic energy due to its motion.
No, it's potential energy turning into kinetic energy.
Conservation of momentum.
Since kinetic energy depends on mass and speed, you can increase either of these.
This is a mighty vague question, but I'll give it a shoot. A skateboard has wheels - when these wheels are acted upon by a force (such as you pushing it), they proceed to take the energy from that force and change it into centrifugal and centripetal forces- this causes the wheels on your skateboard to turn. Your skateboard won't roll indefinitely from 1 push because while your skateboard is rolling it is creating friction with the sidewalk you're skateboarding on. Friction is caused when 2 objects rub up against each other - this creates heat and a transfer of kinetic energy. Once all the kinetic energy has been transferred from your skateboard's wheels to the sidewalk, your skateboard come to a stop.
A moving skateboard has kinetic energy. If it is moving down an incline, it also has potential energy that is converted to kinetic energy as it gains speed. If its moving up an incline, kinetic energy is converted to potential energy as it loses speed.
The friction between the foot and the ground creates a force that opposes the motion of the skateboard, causing it to slow down. This friction converts the kinetic energy of the skateboard into thermal energy.
the skateboards potential energy becomes kinetic energy and heat energy.