How do you calculate acceleration in this scenario?

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In summary: Assuming that you are looking for the acceleration from the start of the motion (initial velocity 0) to the point of impact (final velocity 32 inches/sec), you can rearrange the equation to solve for acceleration:a = (2S - 2Ut)/t2In summary, the problem is asking for the acceleration of a hand that starts at a velocity of 32 inches/sec and travels 19 inches in 0.29 seconds before impacting a wall and compressing 0.5 inches. Using the equation S = Ut + 0.5at^2, the acceleration can be solved for by rearranging the equation to a = (2S - 2Ut)/t^2.
  • #1
imagesparkle
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Homework Statement


if there are is a person standing in front of wall with 19 inches between the wall and the person, and the person slams their hand against the wall in a matter of .29 seconds. Also, prior to the impact, the hand was moving 32 inches/sec with a resiliency of .5 inches. How do you solve for acceleration?

Homework Equations


a = (vf-vi)/t (not sure about this equation)

The Attempt at a Solution


a=(0-32)/.29
 
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  • #2
That will give you the acceleration in the first part.
For the second part, you'll need a different equation (or this plus another one) as you don't know the deceleration time yet.
 
  • #3
I think you have better post the question exactly as posed. Solve for acceleration when? Before impact, during impact? Both phases?

Before impact:

If it takes 0.29 seconds to travel the 19 inches then you might expect it to be moving at roughly 19/0.29 = 65 inches/second. However the problem says just prior to the impact, the hand was moving at only 32 inches/sec. That suggests the hand isn't moving at constant velocity before it hits the wall. So you perhaps you need to work out what's going on in that phase first. I suspect a "pulled punch" ??

During the impact:

If I have understood the problem correctly... the hand impacts at 32 inches/sec but is compressed 0.5 inches during the impact. You can treat the 0.5 inches as the stopping distance to work out the average deceleration.
 
  • #4
CWatters said:
I think you have better post the question exactly as posed. Solve for acceleration when? Before impact, during impact? Both phases?

Before impact:

If it takes 0.29 seconds to travel the 19 inches then you might expect it to be moving at roughly 19/0.29 = 65 inches/second. However the problem says just prior to the impact, the hand was moving at only 32 inches/sec. That suggests the hand isn't moving at constant velocity before it hits the wall. So you perhaps you need to work out what's going on in that phase first. I suspect a "pulled punch" ??

During the impact:

If I have understood the problem correctly... the hand impacts at 32 inches/sec but is compressed 0.5 inches during the impact. You can treat the 0.5 inches as the stopping distance to work out the average deceleration.


sorry for my wording. The question is asking for the entire acceleration from start to finish within those 19 inches, and "prior to the impact", that was referring to my initial velocity. I'm just confused as to how to set up my problem and equation in order to find the acceleration.
 
  • #5
It's still not 100% clear what the problem is.

Are you saying the hand has an initial velocity of 32 inches/sec and then travels 19 inches in 0.29 seconds? If so I believe you can use one of the other SUVAT equations..

S = Ut + 0.5at2
 

FAQ: How do you calculate acceleration in this scenario?

What is acceleration?

Acceleration is the rate of change of an object's velocity over time. It is a vector quantity, meaning it has both magnitude and direction.

How is acceleration calculated?

Acceleration is calculated by dividing the change in an object's velocity by the time interval over which the change occurs. The formula for acceleration is a = (vf - vi) / t, where a is acceleration, vf is final velocity, vi is initial velocity, and t is time.

What are the units of acceleration?

The SI unit for acceleration is meters per second squared (m/s^2). Other common units include centimeters per second squared (cm/s^2) and feet per second squared (ft/s^2).

How does acceleration relate to force?

According to Newton's second law of motion, the acceleration of an object is directly proportional to the net force acting on it and inversely proportional to its mass. This can be expressed mathematically as F = ma, where F is net force, m is mass, and a is acceleration.

What is the difference between average acceleration and instantaneous acceleration?

Average acceleration is the change in an object's velocity divided by the total time it takes for that change to occur. Instantaneous acceleration, on the other hand, is the acceleration at a specific moment in time. It is calculated by taking the limit as the time interval approaches zero in the formula for average acceleration.

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