Acceleration across a frictionless surface

In summary, on a frictionless surface, an object pushed with a certain force and mass will accelerate at a constant rate according to F=ma. As soon as the force is removed, the object will continue at its final velocity indefinitely, as determined by Newton's first and second laws.
  • #1
Sammy101
39
0
Hi, I am confused on the topic of friction. I thought of a question that I cannot answer.

What happens if you push an object with a certain amount of force and mass on a frictionless surface? According to F=ma, you will be able to get the acceleration of the object, but how will you know when the object stops acceleration? Will the object accelerate infinitely?
 
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  • #2
As soon as you stop applying force to the object it will cease accelerating. IE if you push a block, as soon as you take your hand off or stop pushing it will cease accelerating.
 
  • #3
And so then it will just continue at a constant velocity right?

So, if you pushed on a 100kg object with 200N of force for 2s and then let go on a frictionless surface, the objects final velocity would be 4m/s because:

F=ma
200N=100kg(a)
a=2m/s^2

t=2s
velocity= 2m/s^2(2s) = 4m/s and that's how fast it would travel forever on a frictionless surface?
 
  • #4
Yes, as soon as the force applied ceases, the object will continue at whatever velocity it was when you removed the force.
 
  • #5
Thank you!
 
  • #6
Newton's first law & 2nd law
 

Related to Acceleration across a frictionless surface

1. What is acceleration across a frictionless surface?

Acceleration across a frictionless surface is the rate of change of an object's velocity as it moves across a surface with no friction or resistance.

2. How is acceleration across a frictionless surface calculated?

Acceleration across a frictionless surface can be calculated using the formula a = F/m, where a is acceleration, F is the net force acting on the object, and m is the mass of the object.

3. What factors affect acceleration across a frictionless surface?

The only factor that affects acceleration across a frictionless surface is the net force acting on the object. Without friction, there is no resistance to slow down the object's motion.

4. How does acceleration across a frictionless surface compare to acceleration on a surface with friction?

Acceleration across a frictionless surface is typically greater than acceleration on a surface with friction. This is because frictional forces act as a resistance on the object, slowing down its acceleration.

5. What are some real-life examples of acceleration across a frictionless surface?

Some real-life examples of acceleration across a frictionless surface include ice skating, a hockey puck sliding on ice, and a car on an icy road. In all of these cases, the lack of friction allows for smoother and faster movement.

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