It speeds up.
The kinetic energy depends on both mass and speed. If either mass or speed increase, the kinetic energy will increase as well.
As an object's kinetic energy increases, its velocity and momentum also increase. This leads to greater force upon impact and the ability to do more work. However, the object's mass remains constant, so its acceleration will also increase.
Kinetic energy of a mass is directly proportional to two variables: its mass and speed. Many mistake kinetic energy as being proportional to mass and velocity; it is, in fact, mass and speed. (With all technicalities aside, the speed is the factor that matters in computing kinetic energy of an object or a mass). Kinetic Energy = 0.5mv2 (m = mass and v = speed of the mass) Therefore, if the speed of the object increases, the kinetic energy increases. If the speed of the object decreases, the kinetic energy decreases. Similarly, if the mass of the object increases while traveling, its kinetic energy increases. If the mass of the object decreases, the kinetic energy decreases. All has to do with the directly proportional relationship between the two variables and the kinetic energy.
As the speed of an object increases, its kinetic energy and momentum also increase. Additionally, the drag force acting on the object due to air resistance will also increase with speed.
As an object gains kinetic energy (movement), its potential energy decreases. This is because the energy is being converted from potential energy to kinetic energy. The total mechanical energy of the object (kinetic energy + potential energy) remains constant if no external forces are acting on the object.
As an object falls, its potential energy decreases and is converted into kinetic energy. This leads to an increase in the object's kinetic energy as its speed and velocity increase due to the pull of gravity.
As an object's speed increases, its kinetic energy also increases. Kinetic energy is directly proportional to the square of the object's speed, so even a small increase in speed can result in a significant increase in kinetic energy.
The temperature will increase.
That really depends on the situation. Work done on an object may increase its kinetic energy; but it may also just increase its potential energy (e.g., when pushing something upwards against the force of gravity).
As kinetic energy increases, velocity increases while mass remains constant. The kinetic energy of an object is directly proportional to the square of its velocity, so an increase in velocity will cause the kinetic energy to increase. The mass of an object does not affect its kinetic energy directly, only its momentum.
The kinetic energy will increase. Kinetic energy is defined by K=one half mv2 where m is the mass of the object, and v is the velocity of the object. The greater the velocity, the greater the kinetic energy. Since the velocity is squared, increasing it will cause the kinetic energy to grow much faster than if you increased the mass.
If the speed of an object increases, its kinetic energy also increases. Kinetic energy is directly proportional to the square of the object's speed, so a small increase in speed can result in a larger increase in kinetic energy.
As a falling object descends, its potential energy (due to its position above the ground) is converted into kinetic energy (energy of motion). This kinetic energy increases as the object accelerates towards the ground. When the object reaches the ground, all of its potential energy is converted into kinetic energy.
To increase the kinetic energy of an object, you can either increase its mass or increase its velocity. Kinetic energy is directly proportional to both mass and velocity, so increasing either one of these factors will result in an increase in the object's kinetic energy.
Increasing the object's velocity would cause the greatest increase in its kinetic energy. This is because kinetic energy is directly proportional to the square of the object's velocity.
When an object is in motion, its kinetic energy increases. Kinetic energy is the energy of motion, and it depends on the object's mass and speed. The faster an object moves or the heavier it is, the more kinetic energy it has.
Temperature is the average Kinetic energy of molecules in an object. A hot object has more kinetic energy and a cold object has less kinetic energy.