How you exactly do you figure out these two questions As shown in the diagram below a block is attached to a spring and a cable. The block is at rest & is in equilibrium (Fnet = 0). The spring isstretched 20 cm. The block has a mass of 1,710 kg. The tension in the cable is 39,102 N. Determine the force constant of the spring. Express youranswer with the correct mks units.k =CeilingGroundMass vs. WeightSpringCableBlockAn object weighing 964 N on Earth is taken to the Moon. Determine its mass on Earth, its mass on the Moon, and its weight on the Moon. The freefall acceleration on the Moon is 1.6 m/s².Object's mass on Earth =Object's mass on the Moon =Object's weight on the Moon = A 5174 kg elevator is moving 4.6 m/s up. The tension in the elevator cable is 45,472 N. Determine the acceleration of theelevator (state the appropriate mks units). Also determine if the elevator is speeding up, slowing down, or maintaining aconstant speed.a =Choose direction ---Is the elevator speeding up, slowing down, or maintaining a constant speed?Choose one --O

Answered: Image /qna-images/answer/8dd0ef13-9b3c-4ade-9ad0-884d8e1a6327.jpg

As shown in the diagram below a block is attached to a spring and a cable. The block is at rest & is in equilibrium (Fnet = 0). The spring is stretched 20 cm. The block has a mass of 1,710 kg. The tension in the cable is 39,102 N. Determine the force constant of the spring. Express your answer with the correct mks units. k= Ceiling Ground Spring Cable Block

As shown in the diagram below a block is attached to a spring and a cable. The block is at rest & is in equilibrium (Fnet = 0). The spring is stretched 20 cm. The block has a mass of 1,710 kg. The tension in the cable is 39,102 N. Determine the force constant of the spring. Express your answer with the correct mks units. k= Ceiling Ground Spring Cable Block

Glencoe Physics: Principles and Problems, Student Edition

1st Edition

ISBN:9780078807213

Author:Paul W. Zitzewitz

Publisher:Paul W. Zitzewitz

Chapter4: Forces In One Dimension

Section4.2: Weight And Drag Force

Problem 16PP

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