What will be the largest possible kinetic energy of an arrow shot from a bow that has been pulled back so that it stores 60 J of elastic potential energy?

The picture models the stages of an arrow being shot from a bow.How can the arrow be used to demonstrate the conservation of energy?A It will have the same total energy just before impact as when it was released.B Its potential energy will be destroyed once it is released from the bow.C Its kinetic energy will be destroyed once it reaches the target.D It will create new energy when it strikes the target.

Tell whether the given situations show potential or kinetic energy.AIMING AN ARROW

An archer puts a 0.30kg arrow to the bowstring. An average force of 201N is exerted to draw the string back 0.8m. a. Assuming no frictional loss, with what speed does the arrow leave the bow? b. If the arrow is shot vertically into the air, how high will it rise?

A ball is projected with kinetic energy E, at an angle of 60° to the horizontal. The kinetic energy of this ball at the highest point of its flight will become:

The above diagram shows a cart with a mass of 9.50 kg that has collided with and compressed a springbumper with an elastic constant of 2.40 x 10 3N/m. When the spring is compressed a distance of8.75 cm, the cart still has a speed of 1.22 m/s. What is the mechanical energy of the cart at that instant?a. .8.13 c. 7.07Jb. 9.12J d. 16.3J