When an object falls into sand it leaves a crater behind. Explain how the size of the crater left behind is related to the energy of the falling object.(1 point)%0D%0AResponses%0D%0A%0D%0AEnergy is required to move an object, but all falling objects fall at the same speed regardless of the height they started at; and therefore leave the same sized crater.%0D%0AEnergy is required to move an object, but all falling objects fall at the same speed regardless of the height they started at; and therefore leave the same sized crater.%0D%0A%0D%0AThe size of the crater will be large if the energy used to move the object is small. The size of the crater will be small if the energy used to move the object is large.%0D%0AThe size of the crater will be large if the energy used to move the object is small. The size of the crater will be small if the energy used to move the object is large.%0D%0A%0D%0AThe size of the crater will be large if the energy used to move the object is large. The size of the crater will be small if the energy used to move the object is small.%0D%0AThe size of the crater will be large if the energy used to move the object is large. The size of the crater will be small if the energy used to move the object is small.%0D%0A%0D%0AA larger object will always have more energy when falling, so it will leave a bigger crater than a smaller object.
The size of the crater left behind when an object falls into sand is related to the energy of the falling object. The size of the crater will be large if the energy used to move the object is large, and small if the energy used to move the object is small. Therefore, a larger object will always have more energy when falling and will leave a bigger crater than a smaller object.
