Generally, the velocity as it is squared, but I suppose if you had some titanic mass moving at a very slow velocity then it could be the mass.
The formula is: KE = (1/2) mv2
Friction reduce the velocity, hence, it affect kinetic energy. The potential energy from static pressure is then drawn to maintain the velocity (transformation of potential -> kinetic energy). We then see the friction reduce the static pressure but actually, it affect kinetic first.
Kinetic energy is (1/2) x mass x velocity2.Kinetic energy is (1/2) x mass x velocity2.Kinetic energy is (1/2) x mass x velocity2.Kinetic energy is (1/2) x mass x velocity2.
The factors affecting kinetic energy are mass and velocity.
It increases the kinetic energy, because it is inversely related.
It doesn't. Increasing speed affects the KINETIC energy.
The formula is: KE = (1/2) mv2
Kinetic energy is the mass times one half the velocity squared. KE = ½mv².
What are the two factors that affect an objects kinetic energy
What are the two factors that affect an objects kinetic energy
What are the two factors that affect an objects kinetic energy
What are the two factors that affect an objects kinetic energy
Friction reduce the velocity, hence, it affect kinetic energy. The potential energy from static pressure is then drawn to maintain the velocity (transformation of potential -> kinetic energy). We then see the friction reduce the static pressure but actually, it affect kinetic first.
yes
Centripetal forces can.
Kinetic energy is (1/2) x mass x velocity2.Kinetic energy is (1/2) x mass x velocity2.Kinetic energy is (1/2) x mass x velocity2.Kinetic energy is (1/2) x mass x velocity2.
terminal velocity is the final maximum velocity of a falling object.