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momentum starts with the letter "M" and has 8 letters, while force starts with the letter "F" and has 5 letters.

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What is the relationship between momentum and force, and how can it be described using the concept that momentum is the derivative of force?

The relationship between momentum and force can be described by the concept that momentum is the derivative of force. In simpler terms, this means that force is what causes an object to change its momentum. When a force is applied to an object, it causes the object's momentum to change over time. This relationship can be mathematically represented by the equation: Force Rate of Change of Momentum.


What is the relationship between force and momentum, and how can it be expressed mathematically with the statement that force is the integral of momentum?

The relationship between force and momentum is that force is the rate of change of momentum. Mathematically, this relationship can be expressed as the integral of momentum with respect to time equals force. This means that the total change in momentum over a period of time is equal to the force applied during that time.


What is the relationship between momentum and inertia?

I guess that momentum is part of the inertia, inertia is composed of momentum as the pages are related to the book. Inertia will be different if it has different kind of momentum. Force will affect momentum so inertia will change.


What force impact momentum?

Force is what causes a change in momentum. When a force acts on an object, it can either increase or decrease the object's momentum depending on the direction of the force and the duration of its application. The relationship between force and momentum is described by Newton's second law of motion.


What is the relationship between force and the derivative of momentum?

The relationship between force and the derivative of momentum is described by Newton's second law of motion. This law states that the force acting on an object is equal to the rate of change of its momentum. In mathematical terms, force (F) is equal to the derivative of momentum (dp/dt), where momentum (p) is the product of an object's mass and velocity.


What is the relationship between force and the rate of change of momentum, as expressed by the equation force dp/dt?

The relationship between force and the rate of change of momentum is described by the equation force dp/dt. This equation states that force is equal to the rate of change of momentum over time. In simpler terms, it means that the force acting on an object is directly related to how quickly its momentum is changing.


What is the relationship between force, velocity, and momentum in physics, specifically when considering the equation p fv?

In physics, the relationship between force, velocity, and momentum is described by the equation p fv. This equation shows that momentum (p) is equal to the product of force (f) and velocity (v). Momentum is a measure of an object's motion, and it depends on both the force applied to it and its velocity. The greater the force or velocity, the greater the momentum of an object.


What is the relationship between force an momentum?

Force is the rate of change of momentum. When a force acts on an object, it causes the object's momentum to change. The greater the force applied, the greater the change in momentum experienced by the object.


What is the relationship between the impulse on a force-time graph and the change in momentum of an object?

The impulse on a force-time graph is equal to the change in momentum of an object.


The momentum must be greater than the force?

You have not described a specific situation, but there are situations in which momentum is not greater than force. Many different momentums and forces are possible.


What is Impulse momentum?

Impulse momentum theory: when force is applied to a rigid body it changes the momentum of the body. it is calculated with respect to time and also the velocity is calculated.


What is the relationship in between force and linear momentum?

Since F = m*a, and I = m*V = m*a*dt, I = F*dt. Force = rate of change of momentum: F = m.a = m. dv/dt = d(mv)/dt Force x time is called Impulse