Understanding the Relationship Between Power and Motion in Physics

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SUMMARY

The discussion focuses on the relationship between power and motion in physics, specifically addressing a problem involving a body moving under constant power. The key equation derived is P = F.v, where F is the force and v is the velocity. The motion is characterized as non-uniformly accelerating, as both force and velocity vary over time while their product remains constant. The solution involves solving a separable ordinary differential equation (ODE) to find the displacement as a function of time, ultimately showing that displacement is proportional to t3/2.

PREREQUISITES
  • Understanding of basic physics concepts such as force, velocity, and power.
  • Familiarity with differential equations, particularly separable ODEs.
  • Knowledge of integration techniques in calculus.
  • Basic grasp of kinematics in one-dimensional motion.
NEXT STEPS
  • Study the derivation of the equation P = F.v in detail.
  • Learn how to solve separable ordinary differential equations (ODEs).
  • Explore the implications of non-uniform acceleration in physics.
  • Investigate real-world applications of constant power systems in mechanics.
USEFUL FOR

Students of physics, educators teaching motion dynamics, and anyone interested in the mathematical modeling of motion under varying forces.

deathnote93
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[SOLVED] Physics - power and motion

Homework Statement

A body is moving in a straight line under the influence of a source of constant power. Show that its displacement in time t is proportional to t3/2



Homework Equations


P = F.v

F = dp/dt, p=mv

v = dx/dt


The Attempt at a Solution

Absolutely no idea where to begin, sorry. I'm not even sure what 'source of constant power' means here - is the force constant or the velocity?
 
Last edited:
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deathnote93 said:

The Attempt at a Solution

Absolutely no idea where to begin, sorry. I'm not even sure what 'source of constant power' means here - is the force constant or the velocity?

First it helps to notice that the motion is one-dimensional; so you can drop the vectors.

Unlike motion under constant force, motion under constant power is not uniformly accelerating, because it takes more and more energy to achieve the same velocity increase. Neither the Force nor the velocity are constant in time, but their product is.

You must have, in other words:

F(t)v(t)=P_0

where P0 is a constant. Inserting F=m dv/dt, you get:

mv(t)\frac{dv(t)}{dt}=P_0

Which is a seperateable ODE which gives you v which can then be integrated to give x.

Good luck and Have Fun :)
 
Last edited:
Ah, using integration was the last thing on my mind when I was trying this problem in my head.

Got it now, thanks a LOT!
 

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