m1v1+m2v2 =m1u1+m2u2....i think so...thats what i was trying to find out!!!!
Newton's second law is that the force equals the rate of change of momentum:
F = d/dt (MV) = MdV/dt + VdM/dt.
Usually the second term gets forgotten, leaving F=MdV/dt, or in other words:
force = mass times acceleration.
change in momentum = (mass) times (final speed minus initial speed)
mv-mu divided by t
Impulse = [(change in momentum)/time]*time[(change in momentum)/time] = ForceAnd when force acts for a period of time, that impulse changes the momentum of the object.You can also rewrite the impulse equation as: I = F*tHowever, for change in momentum times time, the units would be (kg*m/s)*(s) = kg*m. These units are not in common usage.
Impulse is a change of momentum (delta p).
Change of the body's momentum = (force on the body) x (length of time the force acts on it)
Momentum is the product of the mass and the velocity of an object. It's SI unit is kgms-1. Correct, but perhaps more easily interpreted as kgm/s.
Force = mass x acceleration = kg(m/s^2) or N Momentum = mass x change in velocity = kg(m/s) or Ns The units of impulse are the same as momentum's because impulse is just the change in momentum.
Impulse is a change in momentum. Refer to the related link below for more information and equations about change in momentum, or impulse.
Impulse is a change in momentum. Refer to the related link below for more information and equations about change in momentum, or impulse.
The definition of impulse is change in momentum, how is there CHANGE in an instant? Or you are asking the instantaneous MOMENTUM, then it's the mass of the object times its speed. Or you are asking the CHANGE in momentum, impulse, after a specific time. If the average force applied to the mass is given, it's force times change in time. If a change in Force is observed, you have to integrate. If there is NO force applied, then the change in momentum is none.
Momentum p is the product of mass m and velocity v: p = mv Force is the rate of change of momentum: F = dp/dt If mass is constant, F = mass x acceleration (it can be derived using differentiation and the above formula)
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.
IN general change is defined as the difference of initial from the final. So change = Final - Initial. Hence change in momentum = Final momentum - initial momentum
linear momentum=product of mass and velocity
Impulse = I momentum = P Force = F Mass = m Time= t Velocity = v Delta = the change of I=F(DELTA)t P=mv
Total change in momentum = zero (law of conservation of momentum). Also, a change in momentum is equal to the impulse, which is force x time . A formula is: d/dt (Mv) = F, which is one of Newton's laws of motion.
It would be: Momentum = (mass) times (velocity)
conservation of momentum
based on the momentum formula, momentum equals mass times velocity, momentum can be achieved when something with mass is moving. P=mv