Question

Notify Me Bookmark

The drawing shows a frictionless incline and pulley. The two blocks are connected by a wire (mass per unit length = 0.0330 kg/m) and remain stationary. A transverse wave on the wire has a speed of 70.5 m/s. Neglecting the weight of the wire relative to the tension in the wire, find the masses m1 and m2 of the blocks. (10a) m1: Submit Answer Tries 0 /10 (10b) m2: Submit Answer Tries 0 /10

The drawing shows a frictionless incline and pulley. The two blocks are connected by a wire (mass per unit length = 0.0330 kg/m) and remain stationary. A transverse wave on the wire has a speed of 70.5 m/s. Neglecting the weight of the wire relative to the tension in the wire, find the masses m1 and m2 of the blocks. (10a) m1: Submit Answer Tries 0 /10 (10b) m2: Submit Answer Tries 0 /10

Image text
(10) The drawing shows a frictionless incline and pulley. The two blocks are connected by a wire (mass per unit length = 0.0330 k g / m ) and remain stationary. A transverse wave on the wire has a speed of 70.5 m / s . Neglecting the weight of the wire relative to the tension in the wire, find the masses m 1 and m 2 of the blocks. Submit Answer Tries 0 / 10 (10b) m 2 : Submit Answer Tries 0 / 10

Detailed Answer

0 0

Please enter your email here. You will get email when this question is answered by our tutor.

Doubtrix Logo

Problem is not yet solved!

Click on Notify me to get email when question is answered.

Join Doubtrix with 7-days free trial

  • Icon Correct & Verified Answers
  • Icon No AI-Generated Answers
  • Icon Video Solution for Difficult Questions
  • Icon Work With Experts to Reach at Correct Answers
Notify me Login Sign Up

Similar/Related Questions

The drawing shows a frictionless incline and pulley. The two blocks are connected by a wire (mass per unit length = 0.0214 kg/m) and remain stationary. A transverse wave on the wire has a speed of 65.5 m/s. Neglecting the weight of the wire relative to the tension in the wire, find the masses (a) m1 and (b) m2 of the blocks. (a) Number Units (b) Number Units
Solution
0 0

Two blocks, labeled A and B, are connected by a massless string that runs over a massless and frictionless pulley. Block A is sliding up along an inclined plane with ordinary surface friction. The string from block A runs over the pulley and then to block B which hangs straight down. At the start of the experiment, block A is sliding up the plane and block B is moving downward, both at a speed of v0 = 1.5 m/s. Block A has a mass of 3.3 kg. Block B has a mass of 1.4 kg. The plane is inclined at an angle of 27 degrees above horizontal. The coefficient of kinetic friction between block A and the plane is 0.36 (no units). Assume that the only significant forces on the blocks are normal forces, tensions forces, friction from the inclined plane, and gravity (with g = 9.81 m/s2 ). From the start of the experiment, when block A is sliding up the plane at a speed of 1.5 m/s, how far (in units of meters) does block A slide before coming to a stop? Just one more "show your work" after this one. You will need to submit your solution for this question.
Solution
0 0

(5) Two blocks of masses M and 4M are placed on a horizontal, frictionless surface. A light spring is attached to one of them, and the blocks are pushed together with the spring between them, as seen in the figure below. A cord initially holding the blocks together is burned; after this the block of mass 4M moves to the right (the positive direction) with a speed of v1 = 2.38 m/s. (a) (b) (5a) What is the velocity of the block of mass M? (5b) Calculate the original elastic energy in the spring if M = 0.375 kg. Submit Answer Tries 0 /10
Solution
0 0