Understanding the Relationship Between Force, Momentum, and Impulse

  • Thread starter Thread starter zeshkani
  • Start date Start date
  • Tags Tags
    Force Momentum
AI Thread Summary
Force is related to momentum through the equation F = dp/dt, indicating that force is the rate of change of momentum over time. The relationship is further clarified by the equations F = ma and P = mv, showing that force applied over time alters an object's momentum. Impulse, defined as force acting over time, shares dimensions with momentum and explains why an egg dropped on a pillow does not break, as the pillow extends the time of impact. In contrast, dropping the egg on concrete results in a quick impact with a high force, leading to breakage. Understanding these concepts illustrates the critical role of time in the interaction between force, momentum, and impulse.
zeshkani
Messages
28
Reaction score
0
Is force related to Momentum or momentum to force in anyway
F=ma and P=mv
 
Physics news on Phys.org
Yes, the link between the two is time. Essentially, force is applied over time to change an objects momentum.

Because F = m a, and a =\Deltav / t
then F = m v/t
As you said P = mv so we get
F = P/t or P = Ft
 
With calculus, the equations become more instantaneous and exact:

F=ma=m(dv/dt)=dp/dt-v(dm/dt).

If dm=0 (for instance, not a rocket) then:

F=dp/dt
 
thx a lot :)
 
Also, do you know the concept of Impulse? It has the same dimensions of momentum, but is more precisely defined as a Force acting over a certain amount of time. That's why when you drop an egg on a pillow, it will not break, but when you drop an egg on concrete, it will. Because the egg has some mass m and velocity v, and therefore some momentum p = mv, this momentum is numerically equal to the reactive force of the ground(or pillow) multiplied by the time interval it spends on that respective surface.

The pillow cushions the fall and therefore increases the time interval, in effect decreasing the force and keeping the egg from breaking. When you drop it on the concrete, the time interval is very short, and so the force on the egg is large (which is why it breaks).
 

Thread 'Is calling fictitious forces "not real" just about terminology?'

Hi there, im studying nanoscience at the university in Basel. Today I looked at the topic of intertial and non-inertial reference frames and the existence of fictitious forces. I understand that you call forces real in physics if they appear in interplay. Meaning that a force is real when there is the "actio" partner to the "reactio" partner. If this condition is not satisfied the force is not real. I also understand that if you specifically look at non-inertial reference frames you can...
View full post »

Thread 'Derivation of Hamilton's Principle: Questions'

I have recently been really interested in the derivation of Hamiltons Principle. On my research I found that with the term ##m \cdot \frac{d}{dt} (\frac{dr}{dt} \cdot \delta r) = 0## (1) one may derivate ##\delta \int (T - V) dt = 0## (2). The derivation itself I understood quiet good, but what I don't understand is where the equation (1) came from, because in my research it was just given and not derived from anywhere. Does anybody know where (1) comes from or why from it the...
View full post »

Similar threads

B I don't get instantaneous impulse
Replies
2
Views
1K
B Questions about momentum and force as well as normal force/friction
Replies
35
Views
4K
The relation between impulse and momentum
Replies
7
Views
2K
B Understanding Momentum: The Relationship Between Mass, Velocity, and Force
Replies
29
Views
3K
I Conservation of angular momentum during collisions
Replies
3
Views
3K
Is Impulse the anti derivative of momentum?
Replies
1
Views
7K
I Is there a way in Lagrangian mechanics to incorporate the inertial response from initial momentum when using initial conditions instead of BCs?
Replies
9
Views
983
I Effects of External Torques on the Angular Momentum of Asymmetric Bodies
Replies
3
Views
2K
B K Energy & Momentum: Driving Force or Lost Heat?
Replies
12
Views
1K
B The physics of flywheel launchers (like tennis ball shooters)
2
Replies
60
Views
4K

Hot Threads

Recent Insights

Back
Top