While an elevator of mass 2520 kg moves upward, the tension in the cable is 41.5 kN. Assume the elevator is supported by a single cable. Forces exerted by the guide rails and air resistance are negligible. nat is the acceleration of the elevator? If the acceleration is in upward direction, enter a positive value and if the acceleration is in ownward direction, enter a negative value. m/s2

Same question just asking two different things

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Certainly! Here is the transcription of the text for an educational website: --- **Physics Problem: Elevator Motion Analysis** While an elevator of mass 2520 kg moves upward, the tension in the cable is 41.5 kN. Assume the elevator is supported by a single cable. Forces exerted by the guide rails and air resistance are negligible. **Question** What is the acceleration of the elevator? If the acceleration is in the upward direction, enter a positive value and if the acceleration is in the downward direction, enter a negative value. \[ \boxed{ \, \, \, \, \, } \, \text{m/s}^2 \] --- (Note: There are no graphs or diagrams included in the image provided.)

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**Problem Statement:** While an elevator of mass 2520 kg moves upward, the tension in the cable is 41.5 kN. Assume the elevator is supported by a single cable. Forces exerted by the guide rails and air resistance are negligible. **Question:** If at some point in the motion the velocity of the elevator is 1.20 m/s upward, what is the upward velocity of the elevator 4.00 s later? **Answer:** ______ m/s **Additional Information:** - The setup involves calculating the change in velocity of an elevator over a given time. - Use the principles of physics to determine the change in velocity based on the forces acting on the elevator: the tension in the cable and the gravitational force.