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Why is a sling shot an example of elastic energy?
A sling shot demonstrates elastic energy because when the rubber band is stretched, potential energy is stored in the rubber band as a result of its deformation. This potential energy is converted into kinetic energy when the rubber band is released, propelling the object (such as a stone) forward.
When you stretched a sling shot you give it?
potential energy, as the rubber band stores energy in the form of potential elastic deformation. Once released, this potential energy is converted into kinetic energy, propelling the projectile forward.
-Releasing a ball with a sling shot is an example of what type of force?
Releasing a ball with a sling shot is an example of elastic potential energy being converted into kinetic energy, which is a form of mechanical energy.
What will be the kinetic energy of an arrow having a potential energy of 50 J after it is shot from a bow?
The kinetic energy of the arrow will also be 50 J, assuming that all the potential energy was converted into kinetic energy when the arrow was shot.
Three examples of kinetic energy?
1. Man standing on building falls off. 2. spring in mouse trap is set off killing mouse. 3. A bomb is detonated. /\ | dude...get help. 1. a dime falling off a table 2. a cannon going off 3. a sling shot being shot
Why is a sling shot an example of elastic energy?
A sling shot demonstrates elastic energy because when the rubber band is stretched, potential energy is stored in the rubber band as a result of its deformation. This potential energy is converted into kinetic energy when the rubber band is released, propelling the object (such as a stone) forward.
When you stretched a sling shot you give it?
potential energy, as the rubber band stores energy in the form of potential elastic deformation. Once released, this potential energy is converted into kinetic energy, propelling the projectile forward.
-Releasing a ball with a sling shot is an example of what type of force?
Releasing a ball with a sling shot is an example of elastic potential energy being converted into kinetic energy, which is a form of mechanical energy.
What will be the kinetic energy of an arrow having a potential energy of 50 J after it is shot from a bow?
The kinetic energy of the arrow will also be 50 J, assuming that all the potential energy was converted into kinetic energy when the arrow was shot.
Are there any energies when you shot a hockey puck?
As far as I am aware, there is something called Kinetic energy, the movement of the puck causes kinetic energy.
Three examples of kinetic energy?
1. Man standing on building falls off. 2. spring in mouse trap is set off killing mouse. 3. A bomb is detonated. /\ | dude...get help. 1. a dime falling off a table 2. a cannon going off 3. a sling shot being shot
What will the kinetic energy be of an arrow after it is shot if it has a mass of 10 g and has a potential energy of 50 joules before it is shot?
If all of the potential energy is transferred to the arrow's motion as kinetic energy,then when the shot is complete and before any effect of air resistance has kicked in,its kinetic energy is 50 joules.KE = (mass) x (speed)250 = (.01) x V2V = sqrt(5000) = 70.711 meters per second, as it leaves the bow.Oops! Please excuse us. We thought you were going for the arrow's speed as it leftthe bow. Now we notice that you only wanted its kinetic energy. That's 50 joules,and it doesn't make any difference what its mass is. That was a 10-gram red herring.
Does a sling shot work in space?
No, a sling shot would not work in space because there is no air resistance to propel the ammunition forward. Without air molecules to push against, the sling shot would not generate the force needed to launch the projectile.
What is a machine that hurls stones?
sling shot
How fast does a sling shot fire?
5mph
Where is the slingshot on binweevils?
the sling shot is on the floor
What energy takes place as an arrow is shot from a bow?
The moment the arrow is released, potential energy (elastic energy in the bow) is converted into kinetic energy.
