kinetic energy of object=1/2 (mv2 )
mass of that object remains constant through out the motion so K.E. remains constant..
if some how mass decreasing then by formula we can see that the kinetic energy will also decrease.
This statement is not accurate. In classical physics, kinetic energy is directly proportional to mass and velocity. As mass decreases, assuming velocity remains constant, kinetic energy will also decrease.
Kinetic energy is affected by an object's mass and its velocity. The kinetic energy of an object increases as its mass or velocity increases. Conversely, kinetic energy decreases as mass or velocity decreases.
The kinetic energy of a body depends on its mass and its velocity. As the mass of the body increases, its kinetic energy also increases. Similarly, as the velocity of the body increases, its kinetic energy increases as well.
the mass or velocity of an object increases. Kinetic energy is directly proportional to both mass and velocity, so if either of these values increases, the kinetic energy of the object will also increase.
The kinetic energy of a body depends on its mass and its velocity. The kinetic energy of an object increases with its mass and also increases with the square of its velocity.
The two things that affect kinetic energy are an object's mass and its velocity. Kinetic energy increases as either the mass or velocity of an object increases.
Kinetic energy is affected by an object's mass and its velocity. The kinetic energy of an object increases as its mass or velocity increases. Conversely, kinetic energy decreases as mass or velocity decreases.
When kinetic energy increases, either the velocity or the mass (or both) must increase as well. Kinetic energy is directly proportional to the square of an object's velocity, so an increase in velocity leads to a greater increase in kinetic energy. Alternatively, an increase in mass will also increase kinetic energy if the velocity remains constant.
the mass or velocity of an object increases. Kinetic energy is directly proportional to both mass and velocity, so if either of these values increases, the kinetic energy of the object will also increase.
Kinetic Energy increases as velocity increases. Kinetic Energy = 1/2 * Mass * Velocity2
the defining equation for kinetic energy= 1/2 mv2therefore kinetic energy is directly proportional to mass or as kinetic energy increases, mass increases proportionally (and vice versa).therefore if mass is doubled, the kinetic energy is also doubled.
Kinetic energy for nonrelativistic speeds is 1/2 times mass times speed squared. If ONLY the mass increases, then the kinetic energy will also increase.
Increasing mass increases kinetic energy because kinetic energy is directly proportional to mass. This means that as mass increases, the kinetic energy of an object will also increase, assuming the velocity remains constant.
The two things that affect kinetic energy are an object's mass and its velocity. Kinetic energy increases as either the mass or velocity of an object increases.
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.
it gets greater because the greater the mass the greater kinetic energy
Potential Energy = mass * gravity * height. The higher the ball, the greater its PE. . Kinetic Energy = ½ * mass * velocity. The ball slows down as it goes up. As it goes up it, Kinetic energy decreases. . Kinetic energy decreases as potential energy increases. And the reverse is true as the ball comes down. The total energy (PE + KE) remains constant
As the mass of an object moving at a given speed decreases, its kinetic energy also decreases proportionally. Kinetic energy is directly proportional to the mass of the object, so a decrease in mass will result in a decrease in kinetic energy.