What do YOU think, and why?Kamal said:Let's say we are in outer space.Suppose I have 2 metallic balls A and B with initial velocity 0 and same mass M and a baseball bat.Let's say I hit the ball A with force F and ball B with F' in such a way that F>F'.Ball A attain final velocity V in time T and ball B attain final velocity V' in time T'.Let's say D is distance traveled by A in time T and D' is distance traveled by B in time T'.I know that V >V'.Please say whether T>T' or vice versa and D>D' or vice versa.
Actually, we do not know that V>V' because we are not given any information about T or T'.Kamal said:Let's say I hit the ball A with force F and ball B with F' in such a way that F>F'.Ball A attain final velocity V in time T and ball B attain final velocity V' in time T'. ... I know that V >V'.
Since F>F' and initial velocity is zero we can say V>V' because greater the force greater will be the energy transferred greater the energy transferred greater will be the final velocity.Dale said:Actually, we do not know that V>V' because we are not given any information about T or T'.
This is not correct. What will happen if F = 10 N and F' = 5 N (F>F') and if T = 1 s and T' = 10 s?Kamalesh said:Since F>F' and initial velocity is zero we can say V>V' because greater the force greater will be the energy transferred greater the energy transferred greater will be the final velocity.
I agree that is a logical and a good assumption generally, but unfortunately the problem is that in the end the OP wants to know:Delta2 said:first to make the logical assumption that the times T,T' will be both small and approximately equal (since we hit the balls with a baseball bat)
So by making that assumption you are directly assuming part of the desired conclusion. That may not be a problem for the OP, but I think they need to be explicit.Kamal said:whether T>T' or vice versa and D>D' or vice versa.
Yeah, that is SUCH a problem on this forum. People just pile on even after an OP has been asked to clarify something or explain HIS though processes but has made zero response, as in this case. I've been noticing that more and more lately but it has always been the case at least to some extent.gmax137 said:Until this is clarified the discussion has little meaning.
Force is directly proportional to the change in momentum of an object. This means that the greater the force applied to an object, the greater the change in its momentum will be.
Yes, force can change the direction of an object's momentum. This is known as a change in velocity, which is caused by an unbalanced force acting on the object.
Force and momentum have a direct relationship, meaning that as force increases, so does momentum. This relationship is described by Newton's second law of motion, which states that force is equal to the change in momentum over time.
The mass of an object is inversely proportional to the change in its momentum caused by force. This means that the greater the mass of an object, the smaller the change in momentum will be for a given force.
No, momentum cannot change without the application of force. In order for an object's momentum to change, there must be an unbalanced force acting on the object. In the absence of force, an object will maintain its current momentum.