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The slope of a force vs. time graph is equal to the change in momentum or the Impulse.
A Force-time graph shows the variation of force with respect to time. More usefully the area under such a graph gives the quantity Ft or impulse, which is equal to the change in momentum of an object. Ft = Mv-Mu
Impulse refers to both force and time....... Impulse=(the change in Force)*(time) OR Impulse=the change in Momentum
Impulse=Force*time=change of momentum
I believe the answer is no. The impulse produced is also time related. Impulse force is measured as dp/dt. Therefore a smaller force produced for a very quick time could produce a larger impulse than a large force over a longer time.
The value of the impulse equals the the force times the time.
Impulse=Force*Time interval =30*4=120Ns
Impulse is based on two factors: force and time. I = F / t. If there is zero force, the impulse will be zero. If time is zero, the calculation would be undefined.
The momentum-time graph is the integral of the force-time graph. that is, it is the area under the curve of the f-t graph.The momentum-time graph is the integral of the force-time graph. that is, it is the area under the curve of the f-t graph.The momentum-time graph is the integral of the force-time graph. that is, it is the area under the curve of the f-t graph.The momentum-time graph is the integral of the force-time graph. that is, it is the area under the curve of the f-t graph.
it is known as impulse Impulse means the momentum change OS the body Imp =m(v2-v2) if divide both sides by time impulse /time= m (velosity change/time) = ma =force hense impulse = force*time
Impulse is force x time where the assumption is that the force is high and the time is short. Since force is rate of change of momentum of a free body, then impulse amounts to a sudden change of its momentum.
Impulse is the force applied on an object multiplied by the time during which the force is applied. To illustrate the difference, a large force applied during a short time may have a lower impulse than a smaller force applied for longer.