Is it possible for two objects to have different speeds but the same kinetic energy?(1 point)Responses. Kinetic energy depends only on speed, so a greater speed means a greater kinetic energy.No. Kinetic energy depends only on speed, so a greater speed means a greater kinetic energy.Yes, but the object with the greater speed must have the greater mass to have the same kinetic energy.Yes, but the object with the greater speed must have the greater mass to have the same kinetic energy.Yes, but the object with the greater speed must have the lower mass to have the same kinetic energy.Yes, but the object with the greater speed must have the lower mass to have the same kinetic energy.No. There are no combinations of different masses and speeds that would give the same kinetic energy
Yes, but the object with the greater speed must have the lower mass to have the same kinetic energy.
Yes, it is possible for two objects to have different speeds but the same kinetic energy.
No. Kinetic energy depends only on speed, so a greater speed means a greater kinetic energy.
To understand why, let's look at the formula for kinetic energy:
Kinetic Energy (KE) = 0.5 * mass * velocity^2
In this formula, mass refers to the mass of the object and velocity refers to the speed of the object. As you can see, kinetic energy is directly proportional to the square of the velocity. This means that if the speed of an object increases, the kinetic energy also increases.
Therefore, it is not possible for two objects to have different speeds but the same kinetic energy. The object with the greater speed will have a greater kinetic energy.