Register
If the force applied to an object remains constant, is more power needed for the object to move faster ? Explain
128k views
3 votes
If the force applied to an object remains constant, is more power needed for the object to move faster ? Explain

User Numediaweb
by
6.3k points

1 Answer

6 votes

Answer:

Yes

Step-by-step explanation:

The power is defined as the work done (W) per unit of time (t):


P=(W)/(t)

this can be rewritten in another way: keeping in mind that the work is the product of force (F) and displacement (d):
W=Fd and that the ratio between displacement (d) and time (t) is the velocity:
v=(d)/(t), we can rewrite the equation above as


P=(Fd)/(t)=F(d)/(t)=F\cdot v

So, the power is the product of force and velocity: therefore, if the force applied to an object is constant, we see that if we want to increase the velocity (v) we also need to use more power (P), because from the formula we see that P and v are directly proportional to each other.


User David Gillen
by
6.8k points
Ask a Question
Welcome to QAmmunity.org, where you can ask questions and receive answers from other members of our community.

7.2m questions

9.5m answers

Other Questions

What is the meant by the frequency of a wave? What is the unit?
Is this true or false ethics deals with morals and values and can be measured and tested using the scientific method. Thank you for answering and your help
What forms of energy are produced by a violin
How does the doppler effect change wave speed?
The moon revolves around earth at a fairly constant speed.Is the moon accelerating
Link Copied!