yes
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While your leg is swinging but before it hits the ball, your leg has kinetic energy.
When your toe contacts the ball, it transfers kinetic energy to the ball, after which
the ball also has some kinetic energy. (Your leg does not lose all of its kinetic energy,
because it's still moving even after the ball takes off.)
Well, potential energy is commonly gravitational. Gravitational Potential Energy (GPE) can be given by selecting a reference point (usually the ground) and the position of the object (ball). Measure GPE by GPE=mgh (m is mass of the ball, g is gravity, 9.8, and h is height between two points.) Note: if reference point is below the ball, it will be positive GPE, and if above, negative GPE; energy is measured in joules (J).
Example
If the ball weighs 1 kg, gravity is 9.8, and height off the ground is 1 m, the ball's potential energy is 1*9.8*1 = 9.8 joules
Some good examples of kinetic energy would be: a car moving, a person in motion on a bike, a pendulum swinging... The list goes on!
yes, it is because kinetic energy is manual movement, plus i think it has something do do with spheres
chemical energy to kinetic energy
yes
When yo shoot or kick the soccer ball you are transfering energy. When your foot swings back it is storing energy. This is called potential energy. When you kick the ball and it goes forward this is called kinetic energy.
When you are going to kick the ball it can NOT be considered a Point, because the place of impact on the ball will determine its trajectory. BUT after you kick the ball, you can consider it a point when you plot its trajectory.
it appears to be the conversion of energy. for example, a kid kicks a ball. the kick transferred its stored up, or Kinetic, energy to the ball, making it move forward.
Friction is when you roll a bowling ball down an bowling alley or when you kick a soccer ball. Hope this helped
You can throw it, roll it, kick it and headbut it. You could also squeeze it.
When you shoot or kick a soccer ball you are transferring energy. when your feet swings back it is storing energy .This is called potential energy and When you kick the ball and the ball flies this is called kinetic energy.Potential energy -stored energyKinetic energy- energy of motion
Kinetic Energy
Punt - which you do if you can not get a first down after 3 plays. Or a kick off - which is what you do after you score to give the other team the ball.
When yo shoot or kick the soccer ball you are transfering energy. When your foot swings back it is storing energy. This is called potential energy. When you kick the ball and it goes forward this is called kinetic energy.
The ball itself has potential energy when being kicked. The motion of kicking uses kinetic energy within the body's structure.
In soccer, you have a soccer ball. The ball has potential energy. When you kick the ball, the potential becomes kinetic energy and the ball moves. However, your foot has potential energy as well (all matter has potential energy because all matter has the potential to move). When you kick with your foot that potential energy becomes kinetic energy. When the soccer ball is on the ground it actually has no potential energy because potential energy is only associated with height. When the ball is kicked however the kinetic energy from the player is passed on to the ball. That kinetic energy makes the ball move. If the ball is kicked into the air then the kinetic energy is passed on and some of that kinetic energy transforms into potential energy and kinetic.
These are correct ways to write it:Rick has a ball. Will he kick it?Will Rick kick the ball he has?Will Rick kick his ball?I wonder if Rick will kick the ball he has?Since Rick has the ball, will he kick it?I hope these suggestions will help!
it appears to be the conversion of energy. for example, a kid kicks a ball. the kick transferred its stored up, or Kinetic, energy to the ball, making it move forward.
When you kick ball in the mid air, you are "punting" the ball.
The increased pressure within the ball (to a point) brings about increased elasticity in the gas within the ball. Elasticity is the degree to which an object is able to release the energy it receives through a collision, without losing energy to entropy of any kind. No object is perfectly elastic. The energy of the kick will produce energy that goes into deforming the ball and adding heat to it. The gas inside the ball with compress and expand, and there will be some heat in that process as well. These are forms of energy that do not add to the ball's recoil. But the more pressure inside the ball, the more efficient the expansion of the gas becomes, after the kick's compression. Imagine kicking a completely deflated ball. There is little or no elasticity, and the ball will absorb a lot of the kick's energy just in the process of being deformed.
Lean back, point your left toe, if you are a righty, to where you want to kick the ball, and use your laces to kick the ball.
kick the ball really far