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What type of energy is kinetic energy?
The kind that transform through motions hence kinetic. Water falling... used in to move the motor on generators Wind blowing... used to turn rotors that move the motor on generators Heat coming out of frictions And so on. -------------------------------------------------- "Energy" is way to quantify the amount of force that is capable of being applied over a distance. For example if you move a block of steel on a very very long track then the distance you are able to move the block before you pass out is equivalent the amount of "energy" in your body. In this example, the amount of energy in your body is potential energy, specifically chemical potential energy from the chemical reactions that move your muscles in your body. But the velocity that you end up moving the block at corresponds to the kinetic energy. So if you move it "harder" aka with more acceleration, then the block will move faster and have more kinetic energy. Specifically, the kinetic energy (KE) of a body is: KE = 1/2 * m * v^2 (one half the mass times the velocity squared) And, without friction, the speed of the block is proportional to the squareroot of the chemical potential energy from your muscles that has been put into the block to move it.
Where does the energy to move your hand come from?
The energy to move your hand comes from chemical reactions within your body, primarily from the breakdown of glucose through a process called cellular respiration. This energy is then used by your muscles to contract and generate movement.
When you move your hand or foot your body has converted potential energy into what type of energy?
Isn't the answer kinetic energy or something along the lines of that? I'm an eighth grader with a basic understanding of energy, and that's the first that comes to mind....
Does a ball in your hand posses energy?
Yes, the ball in your hand possesses potential energy due to its position in relation to the ground. Additionally, if you were to move the ball, kinetic energy would also be present.
What energy transformation takes place when you write?
The potential energy stored in your muscles is converted to kinetic energy as you move your hand to write. This kinetic energy is then converted to mechanical energy as your hand moves the pen on the paper to form letters and words.
What are the consequences in Jenga rules once you touch a block and it moves?
In Jenga, once you touch a block and it moves, you must complete the move by placing the block back in its original position. If the tower collapses as a result of your move, you lose the game.
How do you move the blocks in the ds game of Indiana Jones and the Staff of Kings?
just touch it then move the stylus in the direction you want the block to move
When you touch a hot pan on the stove with your hand you quickly move your hand away your hands movement is the?
its a reaction....
How do you touch the cherry on the impossible test on iPod touch?
You need to move the cherry on the right hand side and then when they are separate you touch the cherry with the leaf on it!
How does thermal energy form kinetic energy?
ofcourse when you move your hand it forms kinatic energy
What is the sign for words in ASL?
1. mave a V with one hand; touch it to the palm of the other hand, and move it off upwards 2. make a C with one hand and touch it to a number one on the other hand
Can you touch multiple blocks in Jenga while playing the game?
No, in Jenga, you can only touch and move one block at a time while playing the game.
Can you touch other blocks while playing Jenga according to the rules?
No, according to the rules of Jenga, you can only touch and move one block at a time.
What are the steps of how tissues help your hand move when you touch a hot stove?
when you touch something hot , a message flashes to and from your spinal cord.this reflex causes you to move your hand.
What type of energy is kinetic energy?
The kind that transform through motions hence kinetic. Water falling... used in to move the motor on generators Wind blowing... used to turn rotors that move the motor on generators Heat coming out of frictions And so on. -------------------------------------------------- "Energy" is way to quantify the amount of force that is capable of being applied over a distance. For example if you move a block of steel on a very very long track then the distance you are able to move the block before you pass out is equivalent the amount of "energy" in your body. In this example, the amount of energy in your body is potential energy, specifically chemical potential energy from the chemical reactions that move your muscles in your body. But the velocity that you end up moving the block at corresponds to the kinetic energy. So if you move it "harder" aka with more acceleration, then the block will move faster and have more kinetic energy. Specifically, the kinetic energy (KE) of a body is: KE = 1/2 * m * v^2 (one half the mass times the velocity squared) And, without friction, the speed of the block is proportional to the squareroot of the chemical potential energy from your muscles that has been put into the block to move it.
What is the answer to 135 in Professor Layton and the Curious Village?
Move the lower green block to the right of the purple block right Move the top right green block down Move the top right blue block right Move the purple block up Move the blue block below the hole up Move the bottom right green block left one space Move the green block above the bottom right hole down Move the blue block below the purple block right Move the purple block down Move the green block to the right of the hole left and up Move the green block to the right of the hole left Move the blue block below the hole up Move the green block to the right of the purple block up and right Move the purple block right Move the green block above the hole down Move the topmost green block down Move the top right blue block left Move the rightmost blue block left Move the top right green block up Move the bottom right green block up Move the purple block right Move the green block to the right of the red block right and down Move the blue block above the hole down Move the top right blue block down Move the top left blue block right Move the red block up Move the bottom left blue block up Move the bottom left green block left Move the green block to the right of the hole left Move the bottom right blue block down Move the leftmost blue block right Move the red block down Move the top blue block left Move the blue block below the hole up Move the green block to the right of the hole left Move the top right green block down and left Move the purple block up Move the blue block to the right of the red block right Move the bottom blue block right Move the green block above the hole down Move the red block right Move the bottom left green block up Move the green block to the right of the hole left and up Move the green block below the red block left Move the bottom right blue block left Move the rightmost blue block down Move the rightmost green block down and right Move the red block right Move the top left green block right and down Move the top left blue block down Move the topmost blue block left Move the red block up Move the green block to the left of the hole right one space Move the top left green block right Move the bottom left green block up Move the bottom left blue block left Move the bottom right blue block left Move the rightmost green block down Move the green block to the left of the hole right Move the red block down Move the top left blue block right Move the blue block below the hole up Move the leftmost green block up Move the green block to the left of the red block up Move the bottom left blue block up Move the bottom blue block left Move the red block down Move the green block to the left of the hole right Move the leftmost green block right Move the top left blue block down Move the top blue block left Move the green block to the left of the purple block up and left Move the purple block left Move the green block below the hole up Move the bottom right green block up Move the red block right Move the green block above the hole down Move the top left green block down Move the purple block left Move the green block above the red block left and up Move the red block to the exit
Where does the energy to move your hand come from?
The energy to move your hand comes from chemical reactions within your body, primarily from the breakdown of glucose through a process called cellular respiration. This energy is then used by your muscles to contract and generate movement.
