How to Calculate Force and Acceleration: Elevator, Car, and Sailboat Examples

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To calculate the force exerted by the elevator floor on a person weighing 0.6 kN with a downward acceleration of 1.4 m/s², the effective force is found using F = m(g - a), resulting in approximately 0.5 kN. For the car stopping from 33 m/s over 63.7 m, the braking force can be determined using the equation V² = V_initial² + 2a(x1 - x0), allowing for the calculation of acceleration and subsequently the force using F = ma. The sailboat's resultant acceleration can be calculated by combining the forces acting on it, leading to a determination of both magnitude and direction of acceleration. Newton's second law is essential for solving these problems, emphasizing the importance of free body diagrams and proper application of equations. Understanding these principles is crucial for accurately solving physics problems related to force and acceleration.
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A person weighting 0.6kN rides in an elevator that has a downward acceleration of 1.4m/s^2. The acceleration of gravity is 9.8 m/s^2. What is the magnitude of the force of the elevator floor on the person? Answer in units of kN.

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A 1317.9 kg car is coasting along a level road of 33 m/s. A constant breaking force is applied,such that the car is stopped in a distance of 63.7 m. What is the magnitude of the breaking force? Answer in units of N.

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A 12000 kg sailboat experiences an eastward force 28300 N due to the tide pushing its hull while the wind pushes the sails with a force of 75900 N directed toward the northwest (45 degrees westward of North or 45 degrees northward of West). What is the magnitude of the resultant acceleration of the sailboat? Answer in units of m/s^2.

What is the direction of the boats acceleration? Answer in units of degrees (N of West).


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I'm not sure what equations to use on these problems. Any help?
 
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there are only 2 equations
 
Well what 2 equations are those? I don't know what to use to solve these problems.
 
A person weighting 0.6kN rides in an elevator that has a downward acceleration of 1.4m/s^2. The acceleration of gravity is 9.8 m/s^2. What is the magnitude of the force of the elevator floor on the person? Answer in units of kN.

use F=ma

600 N=m 9.8 is how they arrived at the weight of a person. So the person weighed
600/9.8=m

the mass of the person is 61.2 kg

F=61.2kg*(9.8-1.4)

F=61.2kg *8.4 m/s sq
F=514.248 N
or 0.5 kN


The second one you need to a by using the formula V^2=V initial^2 + 2a(x1-x0)

0=V initial^2 +2a(63.7)

once you find a replace a in the formula F=ma
 
Last edited:
In a "moment"um said:
A person weighting 0.6kN rides in an elevator that has a downward acceleration of 1.4m/s^2. The acceleration of gravity is 9.8 m/s^2. What is the magnitude of the force of the elevator floor on the person? Answer in units of kN.

use F=ma

600 N=m 9.8 is how they arrived at the weight of a person. So the person weighed
600/9.8=m

the mass of the person is 61.2 kg

F=61.2kg*(9.8-1.4)

F=61.2kg *8.4 m/s sq
F=514.248 N
or 0.5 kN


The second one you need to a by using the formula V^2=V initial^2 + 2a(x1-x0)

0=V initial^2 +2a(63.7)

once you find a replace a in the formula F=ma


0.5kN is wrong, is there a different way of solving this problem?
 
For the first problem use

Newton's 2nd Law

\sum_{i=1}^{n} \vec{F}_{i} = m \vec{a}

You got movement on the y-axis, the forces are the normal and the weight, the acceleration is downward. Use a free body diagram. Momentum's answer algebraically is correct, if you use webassign or similar try combinations of figures.

For the third problem

Remember

F = ma
 

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