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Newton second law state magnitude of acceleration is directly proportional to the force and the direction of the acceleration is same as the force too. The formula is F=ma. In diving, this law apply too:as you dive,if you accelerate or decelerate while diving,you are actually applying Newton second law.
What you have to apply to get something to move, for example. What you have to provide to prevent something falling, for example. Or to get it to accelerate.
The idea here is to apply Newton's Second Law. Solving for mass, you get:m = F/a
it doesn't.
a prism, and the telescope
No. The conditions for Newton's First Law are that there is no acceleration; and these conditions simply don't apply. You need Newton's Second Law for your analysis.
Newton second law state magnitude of acceleration is directly proportional to the force and the direction of the acceleration is same as the force too. The formula is F=ma. In diving, this law apply too:as you dive,if you accelerate or decelerate while diving,you are actually applying Newton second law.
Newton's Second law involves acceleration which is changing the velocity. Velocity can be changed in two ways, direction or speed, so Newton's Law applies to both.
Just apply Newton's Second Law.
if the player has the ball the to get to the other player, they need a lot of force to get to the other player... yea
What you have to apply to get something to move, for example. What you have to provide to prevent something falling, for example. Or to get it to accelerate.
The idea here is to apply Newton's Second Law. Solving for mass, you get:m = F/a
it doesn't.
a prism, and the telescope
Yes.
Yes, the laws of motion apply in outer space.
Newtons second law applies two bicycling because when your bike is going down hill, and you don't have to petal, your bike will not change direction unless you physically change the direction.