A planet's angular
momentum equals the mass of an object multiplied by its distance from the Sun, and corresponds with the force that the planet exerts on the overall system's spin.
A planet's angular
momentum equals the mass of an object multiplied by its distance from the sun, and corresponds with the force that the planet exerts on the overall system's spin.
Not exact matches
The billiard ball's
momentum is also a vectorial quantity, because
momentum is
equal to
mass times velocity.
An object's
momentum equals the product of its
mass and its velocity, or mv.
It is given the formula p = mv, which means that
momentum (p) is
equal to the
mass (m) multiplied by the velocity (v).
B meson deacy: E = (pc) 2 + mc (mc22 Where p
equals momentum the product of
mass and velocity.
Momentum («p») is
equal to
mass multiplied by velocity.