Asked by john
a constant force can at on an object for diferrent lengths of time. as the length of time the force acts increases, the impulse imparted to the object
increases
decreases
remians the same
increases
decreases
remians the same
Answers
Answered by
bobpursley
I suspect your teacher is wanting is increases, but she should have put a constant net force can ...
The force under my rear in this chair is constant, and acts for long periods, but it is not imparting any impulse to my mass. Why? Because the force acting is equal and opposite to my weight, so that no NET force is acting on my rear.
The force under my rear in this chair is constant, and acts for long periods, but it is not imparting any impulse to my mass. Why? Because the force acting is equal and opposite to my weight, so that no NET force is acting on my rear.
Answered by
nana
a constant force can act on an object for different lengths of time. as the length of time the force act increases the impulse started to the object
Answered by
Anonymous
decreases
Answered by
kj
For people who are trying to get away with castle learning, the answer is increasing. F*T/m = change in momentum < denominator increases, lesser value as a result.
Answered by
Ian Fabb
Increase
Answered by
jeff
stays the same
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