Elevator Tension With Upward Acceleration

AI Thread Summary
The discussion revolves around calculating the tension in a steel cable supporting a 10,000N elevator when it accelerates upward at 3.0 m/s². The relevant equations include F=ma and W=mg, with gravity set at 9.8 m/s². The user calculates the mass of the elevator to be approximately 1020 kg and determines the net force required for the upward acceleration. After some confusion, the final tension in the cable is confirmed to be 13.1 kN, taking into account both the weight of the elevator and the additional force from acceleration. The conversation highlights the importance of correctly applying the principles of physics to solve the problem.
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Homework Statement



An elevator weighing 10 000N is supported by a steel cable. Determine the tension in the cable when the elevator is accelerated upward at 3.0 m/s2


A) 7.0kN
B) 10.0 kN
C)11.6 kN
D) 13.1 kN
E) 40.0 kN

Homework Equations



F=ma W=mg (g=9.8m/s^2)

The Attempt at a Solution


W=mg
10 000=m(9.8)
m=1020
 
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The net force (i.e. the total of all the forces) is what causes acceleration in the equation F=ma. So draw a diagram and label the forces acting on it. (Gravity and Tension) so now use the F=ma equation and plug everything in and off you go.
 
So it would be
W=mg
10 000=m(9.8)
m=1020

F=ma
F=1020(3)
F=3060

3060+10 000 = F
F= 13.1 kN?
 
Remember that the force of gravity is opposite the force of tension. One's up and one's down.
 
So the 3060 would be subtracted from the elevators weight because it's accelerating upwards (against gravity) making it 7000?
 
Oh my goodness, I'm sorry, you were right in the first place, I read it wrong. Good work! Sorry to confuse.
 
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