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What acceleration will you give a 41.3 kg box if you push it horizontally with a net force of 98.5 N?
Wiki User
∙ 12y ago
Just use Newton's Second Law: force = mass x acceleration. In this case, solve for acceleration.
Wiki User
∙ 12y ago
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What acceleration will you give to 24.3 kg box if you push it horizontally with a net force of 85.5 N?
Just divide the force by the mass. That's an application of Newton's Second Law.
What acceleration will you give to a 24.3kg box if you push it horizontally with a net force of 8.5n?
F = m aa = F / m = 8.5/24.3 = 0.35 meters per second2IF there is no friction and no other forces on the box.
What acceleration will you give to a 24.3 kg box if you push it horizontally with a net force of 85.5 N?
F = m aa = F / m = 85.5/24.3 = 3.52 meters per second2 if there is no friction and no other forces on it
What is the acceleration caused by your push on a ball?
The acceleration of the ball would depend on its mass and the force of the push. This is because force = mass times acceleration. You could manipulate this equation to solve for acceleration by dividing each side by mass. Acceleration therefore equals force/mass.
How does Newtons second law relate to speedometers?
on a push bike, you provide the force, and this produces acceleration (velocity change), in the form acceleration = force/mass a speedometer measures instant velocity
What acceleration will you give to 24.3 kg box if you push it horizontally with a net force of 85.5 N?
Just divide the force by the mass. That's an application of Newton's Second Law.
What acceleration will you give to a 24.3kg box if you push it horizontally with a net force of 8.5n?
F = m aa = F / m = 8.5/24.3 = 0.35 meters per second2IF there is no friction and no other forces on the box.
What acceleration will you give to a 24.3 kg box if you push it horizontally with a net force of 85.5 N?
F = m aa = F / m = 85.5/24.3 = 3.52 meters per second2 if there is no friction and no other forces on it
Does an object with more weight repuire more force to accelerate than an object with lighter weight?
It certainly does. That's why you have to push it harder to accelerate it horizontally. But that "more weight" that it has is exactly the more force it needs for vertical acceleration, and that's why all objects fall with the same acceleration.
What is the acceleration caused by your push on a ball?
The acceleration of the ball would depend on its mass and the force of the push. This is because force = mass times acceleration. You could manipulate this equation to solve for acceleration by dividing each side by mass. Acceleration therefore equals force/mass.
What is the acceleration caused by your push on the ball?
The acceleration of the ball would depend on its mass and the force of the push. This is because force = mass times acceleration. You could manipulate this equation to solve for acceleration by dividing each side by mass. Acceleration therefore equals force/mass.
One way to increase acceleration is by?
Increase the force on the object. The force must be in the same direction as the acceleration.
Why would a cart start moving faster if you give it a hard push than if you gave it a soft push?
You applied more force, therefore the acceleration will be greater, which will result in greater velocity.
What is the force that is exerted on a A kg mass to give it an acceleration of A meters per second squared?
Force = (mass) x (acceleration)You want both mass and acceleration to be 'A'.Force = A times A = A2 newtons.I guess that means that if you have a rock with mass 5 kg and you push it with force (5)2 = 25 newtons,it'll accelerate at 5 m/s2.
Why does the object with less mass have a larger acceleration?
Newton's Second Law says force = mass * acceleration. If you push on two objects with the same force, the object with the smaller mass will have a greater acceleration.
If you push horizontally on your book with a force of 1 N to make the book slide at constant velocity how much is the force of friction on the book?
No
Why are the objects easier to push or pull than others?
An object with a greater mass needs more force. Mass is what gives an object resistance to acceleration. Newton's Third Law: force = mass x acceleration, or acceleration = force / mass.
