Solving Word Problem: Elevator Acceleration of 145 lb to 122 lb

  • Thread starter BlueOwl
  • Start date
In summary: T=122lb so (145lb)(9.8m/s^2)-122lb=65.53a. This is the same thing as you had but I believe you calculated incorrectly.
  • #1
BlueOwl
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Homework Statement



A person that has a weight, on land, of 145 lb gets on an elevator to records an apparent weight of 122 lbs. What is the direction and magnitude of the elevator's acceleration?


Homework Equations



F=ma or F=mW


The Attempt at a Solution



I have no Clue how to do this any help will do :)
 
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  • #2
BlueOwl said:

Homework Statement



A person that has a weight, on land, of 145 lb gets on an elevator to records an apparent weight of 122 lbs. What is the direction and magnitude of the elevator's acceleration?


Homework Equations



F=ma or F=mW


The Attempt at a Solution



I have no Clue how to do this any help will do :)

First, is the elevator accelerating upwards or downwards? How can you tell?

What causes the change in apparent weight?
 
  • #3
Weight is a force, not an acceleration. Your weight is equal to F = ma = mg when standing on the Earth where g = -9.8m/s^2. When you're in an elevator, assuming you're being weighed, the acceleration of the elevator will either help cancel out or increase your weight which is something you can tell by our everyday experience. Since your mass doesn't change, you can determine the change in the acceleration you feel by comparing your weight on land and with the elevator in use. This change is equal to the elevator's acceleration.
 
  • #4
Im still Confused . I know that the the elevator is accelerating downwards, reducing his apparent weight but how do I solve for the Magnitude?
 
  • #5
Well you know the change in weight. With this, you can determine the acceleration since you can determine the mass from the initial part of the problem saying that someone weighs 145lb on Earth outside of the elevator.
 
  • #6
If he is accelerating downwards then there has to be a net force going down also. I changed to Newtons so 642.25-542.9=ma. m=65.53. You can solve for a. It is easier to visualize him being on a string. That is another way to measure weight. So that makes mg-T=ma. T is the weight shown then.
 

1. What is the formula for calculating acceleration?

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.

2. How do you calculate the weight of an object?

The weight of an object is calculated by multiplying its mass by the acceleration due to gravity. The formula is W = mg, where W is weight, m is mass, and g is the acceleration due to gravity (9.8 m/s^2 on Earth).

3. How do you solve a word problem involving acceleration?

To solve a word problem involving acceleration, you will need to identify the given variables and use the formula a = (vf - vi)/t to find the missing variable. Make sure to convert all units to the appropriate standard unit (meters for distance and seconds for time) before plugging them into the formula.

4. How do you calculate acceleration when given the weight of an object?

To calculate acceleration when given the weight of an object, you will need to use the formula a = W/m, where a is acceleration, W is weight, and m is mass. You will also need to know the acceleration due to gravity (g = 9.8 m/s^2 on Earth) to solve for the mass.

5. How do you interpret the negative sign in the result of the acceleration calculation?

The negative sign in the result of the acceleration calculation indicates that the object is decelerating or slowing down. This means that the final velocity is less than the initial velocity. If the result is positive, it means that the object is accelerating or speeding up.

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