That's the formula that defines momentum. For some reason unknown to me, the symbol commonly used for momentum is "p". Momentum = mass x velocity.
That's the formula that defines momentum. For some reason unknown to me, the symbol commonly used for momentum is "p". Momentum = mass x velocity.
That's the formula that defines momentum. For some reason unknown to me, the symbol commonly used for momentum is "p". Momentum = mass x velocity.
That's the formula that defines momentum. For some reason unknown to me, the symbol commonly used for momentum is "p". Momentum = mass x velocity.
That's the formula that defines momentum. For some reason unknown to me, the symbol commonly used for momentum is "p". Momentum = mass x velocity.
Incorrect.
p=mv where p is momentum, m is mass and v is velocity :)
False
The MV in MV photon means megavolt
Yes: P=mv (momentum = mass * velocity)
Torque is vector energy e.g FxD and momentum is the product of mass and speed p= mv or velocity P=mV. Torque is a vector energy and Momentum is energy per unit speed, a vector or a scalar, W/c = Momentum.
If: p = mv Then: v = p/m
In classical mechanics, momentum (pl. momenta; SI unit kg·m/s, or, equivalently, N·s) is the product of the mass and velocity of an object (p = mv).
p=mv or Ft=mv
based on the momentum formula, momentum equals mass times velocity, momentum can be achieved when something with mass is moving. P=mv
p=mv
p=mv
No it does not. It represents momentum.
p=mv where p is momentum, m is mass and v is velocity :)
False
First, know that p = mv, where p = momentum, m = mass, and v = velocity. Let Car A be the car with twice the mass, and Car B be the car with twice the velocity. The momentum of Car A has to be in relation to the momentum of Car B, so: Car A: p = mv write the equation p = 2mv write the equation in relation to Car A p = 2(mv) realize that the new equation is twice the old 2p Car B: p = mv p = m2v p = 2(mv) 2p So the cars have the same momentum!
Momentum (p) is mass (m) times velocity (v), so p = mv
yes, P=mv