Automobile accidents are a fine example.
Yes, kinetic energy can be transferred to another object. When we consider billards, we see this idea in action. The kinetic energy of a ball can be transferred to another ball.
Yes as they are not at absolute zero (0 K) they will have some kinetic energy.
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.
The kinetic energy of an object is proportional to the square of its velocity (speed). In other words, If there is a twofold increase in speed, the kinetic energy will increase by a factor of four. If there is a threefold increase in speed, the kinetic energy will increase by a factor of nine.
The kinetic energy (Ek) of a moving object will increase if it's mass (m) or velocity (v) increases.The equation for calculating kinetic energy in Newtonian mechanics is shown below.Ek = 1/2 m x v2Where it can be seen that variations in mass have a much smaller effect on kinetic energy than variations in velocity.
kinetic
Kinetic
Yes, kinetic energy can be transferred to another object. When we consider billards, we see this idea in action. The kinetic energy of a ball can be transferred to another ball.
Californium is not for everyday uses.
Yes as they are not at absolute zero (0 K) they will have some kinetic energy.
the movement in dance is kinetic energy. Kinetic energy is =1/2(mass)(velocity)^2.if this is a homework question,it might also relate to impulses (see link).http://en.wikipedia.org/wiki/Impulse
Momentum is the product of mass and velocity. Kinetic Energy is the product of mass and velocity squared. As you can see, since Kinetic Energy is derived from mass and velocity, and Momentum is derived from mass and velocity, you cannot have one without the other.
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.
For example, when you break things by hitting them hard.
yes
to see
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.