Find the acceleration of the elevator.

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SUMMARY

The acceleration of the elevator can be determined using the readings from a bathroom scale. Initially, the scale reads 818 N when at rest, indicating the weight of the person. As the elevator ascends, the scale reading increases to 950 N, indicating a net force of 132 N (950 N - 818 N). By applying Newton's Second Law (F = ma), the acceleration can be calculated using the formula a = F/m, where F is the net force and m is the mass derived from the initial weight reading.

PREREQUISITES
  • Understanding of Newton's Second Law (F = ma)
  • Knowledge of gravitational acceleration (g = 9.81 m/s²)
  • Ability to calculate mass from weight (m = F/g)
  • Familiarity with normal force concepts in physics
NEXT STEPS
  • Calculate the mass of an object using weight and gravitational acceleration
  • Explore the implications of normal force in non-inertial frames
  • Learn about free body diagrams to visualize forces acting on objects
  • Study the effects of acceleration on scale readings in different scenarios
USEFUL FOR

Students studying physics, particularly those focusing on mechanics and forces, as well as educators looking for practical examples of Newton's laws in action.

badboyben03
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how can i find the answer w/o knowing the mass?

A student stands on a bathroom scale in an elevator at rest on the 64th floor of a building. The scale reads 818 N. As the elevator moves up, the scale reading increases to 950 N, then decreases back to 818 N. Find the acceleration of the elevator.
 
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Actually you can solve for the mass of the person when he is at rest. At rest, acceleration is due to gravity so:

F_{1}=mg
and
m=\frac{F_{1}}{g}

where g=9.81\frac{m}{s^2} and F_{1}=818N.
 
after i find the mass of the person? wut do i have to do?
 
950N is the normal force the person experiences.

The person's weight must be subtracted out to get the net force which is 950N-818N=132N.

Using Newton's 2nd Law, we can can find the acceleration.

F=ma

implies

a=\frac{F}{m}

where F =132N and m is the mass of the person found.
 

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