A resultant force of 200N act on a body of mass 100kg for ss what is the impulse of the force on the body.
Well, well, well! Looks like there's some forceful business going on here! To calculate the impulse, my dear friend, we need to multiply the force applied by the time for which it acts. But, ah, we're missing an essential piece of information, the time!
So, unless this force has magical powers and can make time disappear, we can't calculate the impulse just yet. So, let's find that missing time and bring it back from its adventure! Then, we can have a hoot and calculate the impulse for you!
The impulse of a force on an object is defined as the product of the force and the time interval over which it acts. To calculate the impulse, we need to know the time interval over which the force acts.
Impulse (J) = Force (F) × Time Interval (Δt)
However, you haven't provided the time interval during which the force acts. Could you please provide that information?
To find the impulse of a force on a body, you need to multiply the force by the time over which the force acts. In this case, the force is 200 N, but you haven't mentioned the duration of the force.
If we assume the force acts for a certain amount of time, let's say t seconds, then the impulse is given by the formula:
Impulse = Force × time
To calculate the impulse, we need to know how long the force acts on the body. Could you provide the duration of the force?
change of momentum = Force * time
= 200 * s
If you really mean for s seconds.