PE Is potential energy, and GPE is G-forces. And not the guinea pig squad! But anyway, the wierd ticks are like accelerators, which speeds up the coaster to allow it to go up, and have enough energy for the coaster to get back up to the top.
At the top of the roller coaster there is a lot of potential energy and going down there is kinetic energy. While its going down down the potential energy is being transfered to kinetic energy.
A the car moves up the hill, it's G.P.E. increases. It is then transferred into K.E. as the car goes back down the hill. As it moves up the hill again it gathers more G.P.E. and loses K.E.
First, the vehicle goes up the hill, creating kinetic energy. Then, when the car stop on top of the hill, that is creating potential energy. Then, the car goes back up down and up the next hill creating more kinetic energy.
GPE stands for gravitational potential energy, and KE stands for kinetic energy. So when it's going up on the roller coaster, it's potential energy is increasing and it's kinetic energy is normal. However, it's kinetic energy decreases when when it stop at the top of the roller coaster. And when it goes down the giant hill, it's kinetic energy dramatically increases but the coasters potential energy decreases.
GPE stands for gravitational potential energy, and KE stands for kinetic energy. So when it's going up on the roller coaster, it's potential energy is increasing and it's kinetic energy is normal. However, it's kinetic energy decreases when when it stop at the top of the roller coaster. And when it goes down the giant hill, it's kinetic energy dramatically increases but the coasters potential energy decreases.
GPE stands for gravitational potential energy, and KE stands for kinetic energy. So when it's going up on the roller coaster, it's potential energy is increasing and it's kinetic energy is normal. However, it's kinetic energy decreases when when it stop at the top of the roller coaster. And when it goes down the giant hill, it's kinetic energy dramatically increases but the coasters potential energy decreases.
GPE stands for gravitational potential energy, and KE stands for kinetic energy. When the roller coaster goes up, its potential energy increases. The kinetic energy is normal.
The cart moves up the hill, it's GPE. increases. It is then transferred into Kinetic energy as the cart goes back down the hill. As it moves up the hill again it gathers more GPE. and loses Kinetic energy.
GPE is G-Force and PE is potential energy and on the picture above it is showing that when the cart on the tracks are going up it is using G-force and potential energy is being used to increase the speed.
PE is potential energy ( or physical education) and GPE is gravitational potential energy. At the top of the ramp, the cart has no kinetic energy, but has a lot of potential energy. The roles change when the cart is going down a ramp. When the cart goes a ramp, the cart loses kinetic energy and changes it to gravitational potential energy.
As the car moves up the hill it's GPE increases. Then the GPE transfers into KE. This process repeats at you go up and down slopes. In this case a track.
As the car moves up the hill it's GPE increases. Then the GPE transfers into KE. This process repeats at you go up and down slopes. In this case a track.
As the car moves up the hill it's GPE increases. Then the GPE transfers into KE. This process repeats at you go up and down slopes. In this case a track.
GPE stands for gravitational potential energy, and KE stands for kinetic energy. So when it's going up on the roller coaster, it's potential energy is increasing and it's kinetic energy is normal. However, it's kinetic energy decreases when when it stop at the top of the roller coaster. And when it goes down the giant hill, it's kinetic energy dramatically increases but the coasters potential energy decreases. Credit: Katie N.
As the car moves up the hill it's GPE increases. Then the GPE transfers into KE. This process repeats at you go up and down slopes. In this case a track.
PE Is potential energy, and GPE is G-forces. And not the guinea pig squad!
ReplyDeleteBut anyway, the wierd ticks are like accelerators, which speeds up the coaster to allow it to go up, and have enough energy for the coaster to get back up to the top.
At the top of the roller coaster there is a lot of potential energy and going down there is kinetic energy. While its going down down the potential energy is being transfered to kinetic energy.
ReplyDeleteA the car moves up the hill, it's G.P.E. increases. It is then transferred into K.E. as the car goes back down the hill. As it moves up the hill again it gathers more G.P.E. and loses K.E.
ReplyDeleteFirst, the vehicle goes up the hill, creating kinetic energy. Then, when the car stop on top of the hill, that is creating potential energy. Then, the car goes back up down and up the next hill creating more kinetic energy.
ReplyDeleteGPE stands for gravitational potential energy, and KE stands for kinetic energy. So when it's going up on the roller coaster, it's potential energy is increasing and it's kinetic energy is normal. However, it's kinetic energy decreases when when it stop at the top of the roller coaster. And when it goes down the giant hill, it's kinetic energy dramatically increases but the coasters potential energy decreases.
ReplyDeleteGPE stands for gravitational potential energy, and KE stands for kinetic energy. So when it's going up on the roller coaster, it's potential energy is increasing and it's kinetic energy is normal. However, it's kinetic energy decreases when when it stop at the top of the roller coaster. And when it goes down the giant hill, it's kinetic energy dramatically increases but the coasters potential energy decreases.
ReplyDeleteYou copied wyatt!! please post your own
DeleteGPE stands for gravitational potential energy, and KE stands for kinetic energy. So when it's going up on the roller coaster, it's potential energy is increasing and it's kinetic energy is normal. However, it's kinetic energy decreases when when it stop at the top of the roller coaster. And when it goes down the giant hill, it's kinetic energy dramatically increases but the coasters potential energy decreases.
ReplyDeleteI do believe you copied me.
DeleteGPE stands for gravitational potential energy, and KE stands for kinetic energy. When the roller coaster goes up, its potential energy increases. The kinetic energy is normal.
ReplyDeleteThe cart moves up the hill, it's GPE. increases. It is then transferred into Kinetic energy as the cart goes back down the hill. As it moves up the hill again it gathers more GPE. and loses Kinetic energy.
ReplyDeleteYou copied me please post your own
DeleteGPE is G-Force and PE is potential energy and on the picture above it is showing that when the cart on the tracks are going up it is using G-force and potential energy is being used to increase the speed.
ReplyDeletePE is potential energy ( or physical education) and GPE is gravitational potential energy. At the top of the ramp, the cart has no kinetic energy, but has a lot of potential energy. The roles change when the cart is going down a ramp. When the cart goes a ramp, the cart loses kinetic energy and changes it to gravitational potential energy.
ReplyDeleteAs the car moves up the hill it's GPE increases. Then the GPE transfers into KE. This process repeats at you go up and down slopes. In this case a track.
ReplyDeleteIt's people riding on a roller coaster. Isn't it obvious?
ReplyDeleteThe cart moves up the ramp and then kinetic energy brings the cart downward.
ReplyDeleteERS da CER MERVES ERTS G P E ENCRESES
ReplyDeleteas the car moves its GPE increases
As the car moves up the hill it's GPE increases. Then the GPE transfers into KE. This process repeats at you go up and down slopes. In this case a track.
ReplyDeleteIt goes up the hill and starts off slow then it goes down the hill really fast and then slows back down.
ReplyDeletethe roller coster goes up and down.
ReplyDeleteloganm
As the car moves up the hill it's GPE increases. Then the GPE transfers into KE. This process repeats at you go up and down slopes. In this case a track.
ReplyDeleteA car goes up a hill, and travels down the hill and gains speed, to go up the next hill.
ReplyDeletethis is a graph of a roller coaster,with hills
ReplyDeleteGPE stands for gravitational potential energy, and KE stands for kinetic energy. So when it's going up on the roller coaster, it's potential energy is increasing and it's kinetic energy is normal. However, it's kinetic energy decreases when when it stop at the top of the roller coaster. And when it goes down the giant hill, it's kinetic energy dramatically increases but the coasters potential energy decreases.
ReplyDeleteCredit: Katie N.
It shows a cart going up and down.
ReplyDeleteThe car moves and it slows down when it goes up, speeds up when it goes down
ReplyDeleteIt shows a roller coaster going up then down.
ReplyDeleteIt's a pretty picture of two orange objects in a sear going up and down tracks.
ReplyDeleteAs the car moves up the hill it's GPE increases. Then the GPE transfers into KE. This process repeats at you go up and down slopes. In this case a track.
ReplyDelete