Very, very basically, momentum is a combination of speed and mass of the object.
Kinetic energy is the energy of movement. It is related to an object's mass, and to its speed.
The one with the greatest mass. In general, inertia is related to mass. Inertia = momentum = mass X speed (technically, velocity). The one with the greater speed (if equal masses).
I am not sure exactly but i got something like mass & force, it is directly related to the strength of the force & inversely related to the objects mass.You are right, this is Newton's Second Law of motion.Acceleration describes change of velocity of an object with time. (It's rate of change of velocity.)
Force equals mass times acceleration. To change a speed, you must apply some force (either positive or negative) to give the object some acceleration. How quickly the object's speed changes will correspond to the force given divided by the mass of the object. (ie, the acceleration)
What energy is related to the mass and speed of an object
The greater the mass of the planet, the greater will be the escape velocity.
Very, very basically, momentum is a combination of speed and mass of the object.
According to Einstein's famous equation, it is related to mass and the speed of light (in vacuum).
Kinetic energy is the energy of movement. It is related to an object's mass, and to its speed.
F=ma F- Force m- mass a- acceleration
The one with the greatest mass. In general, inertia is related to mass. Inertia = momentum = mass X speed (technically, velocity). The one with the greater speed (if equal masses).
Force, speed and mass are all related; Force f = cp/r = p/t=mv/t= ma.
I am not sure exactly but i got something like mass & force, it is directly related to the strength of the force & inversely related to the objects mass.You are right, this is Newton's Second Law of motion.Acceleration describes change of velocity of an object with time. (It's rate of change of velocity.)
This refers to their so-called "rest mass", and it is related to the fact that they move at the speed of light. Any object with a non-zero rest mass couldn't move at the speed of light - if it did, its actual mass (mass, considering its movement) would be infinite.
Good guess but the real answer is mass and speed.
Kinetic Energy = (1/2) x mass x speed squared