Impulse = (force) x (time) = 300 x 4 = 1,200kgm-meter/sec.
The mass of the object doesn't matter. (However, if you want to know the change in its linear momentum, it's equal to the impulse.)
yes becuase impulse is calculated by force times difference in time if you exerted a force on the ball at any point (you need to to throw it) then you exerted impulse on it
if a force of 200n is applied to an object that has a mass of 50kg what will its acceleration be?
It is important to note that a large force exerted over a short period of time can give the same impulse as a small force exerted over a long period of time.
Pressure is the force exerted on an object divided by the area where the pressure was applied.
Einstiens law of relativity. That does not relate to impulse. Impulse equates to a change of momentum, usually thought of as for a very short time, but doesn't have really to be so short. Now since force = mass times acceleration =m.dv/dt, you can write that as d/dt of mv, so force =rate of change of momentum So force times time (or its integral over time, which is the same thing) must equal simply the change of momentum. In the case where it a very short time, all that happens is that the momentum changes instantaneously.
yes becuase impulse is calculated by force times difference in time if you exerted a force on the ball at any point (you need to to throw it) then you exerted impulse on it
Impulse=Force*Time interval =30*4=120Ns
What?
Yes, when you throw a ball, you do experience an impulse. This is because you use force to exchange kinetic energy with the ball.
if a force of 200n is applied to an object that has a mass of 50kg what will its acceleration be?
Impulse is the Force times the Time the force is exerted 25.6 newtons times .2 seconds= an impulse of 25.6 x .2= In high school, any question with two numbers given, you either multiply them or divide them to get the answer even if you dont know what your doing... or you add or subtract the two numbers to get the answer
It is important to note that a large force exerted over a short period of time can give the same impulse as a small force exerted over a long period of time.
Impulse refers to both force and time....... Impulse=(the change in Force)*(time) OR Impulse=the change in Momentum
right
Pressure is the force exerted on an object divided by the area where the pressure was applied.
Einstiens law of relativity. That does not relate to impulse. Impulse equates to a change of momentum, usually thought of as for a very short time, but doesn't have really to be so short. Now since force = mass times acceleration =m.dv/dt, you can write that as d/dt of mv, so force =rate of change of momentum So force times time (or its integral over time, which is the same thing) must equal simply the change of momentum. In the case where it a very short time, all that happens is that the momentum changes instantaneously.
Pressure depends on the quantity of force exerted and the area over which the force is exerted