In the same system, what is the tension in the rope?

Unlock all questions

This demo includes only 20 questions. Upgrade to access hundreds of questions, flashcards, exam simulations, and disable ads.

Full question bankExam simulationsFlashcards
From $9.99Unlock all

Study for the Newton's Laws of Motion Test. Engage with multiple choice and interactive questions, each hinting at concepts with detailed explanations. Master the principles and ace your exam!

Multiple Choice

In the same system, what is the tension in the rope?

Explanation:
In this setup, the rope has the same tension throughout and both masses accelerate together. Use Newton’s second law for each mass. For the block on the table, the only horizontal force is the rope’s tension, so T = m1 a. For the hanging mass, gravity pulls down and the rope pulls up, so m2 g − T = m2 a. Combine these: from T = m1 a we get a = T/m1. Substitute into the second equation: m2 g − T = m2 (T/m1). Solve for T: m2 g = T (1 + m2/m1) ⇒ T = (m1 m2 g) / (m1 + m2). Plug in m1 = 3 kg, m2 = 6 kg, g = 9.8 m/s²: T = (3 × 6 × 9.8) / (3 + 6) = 18 × 9.8 / 9 = 19.6 N. The rope’s tension is 19.6 N, which is smaller than the hanging mass’s weight (58.8 N) because part of the weight accelerates the system.

In this setup, the rope has the same tension throughout and both masses accelerate together. Use Newton’s second law for each mass.

For the block on the table, the only horizontal force is the rope’s tension, so T = m1 a.

For the hanging mass, gravity pulls down and the rope pulls up, so m2 g − T = m2 a.

Combine these: from T = m1 a we get a = T/m1. Substitute into the second equation:

m2 g − T = m2 (T/m1).

Solve for T: m2 g = T (1 + m2/m1) ⇒ T = (m1 m2 g) / (m1 + m2).

Plug in m1 = 3 kg, m2 = 6 kg, g = 9.8 m/s²:

T = (3 × 6 × 9.8) / (3 + 6) = 18 × 9.8 / 9 = 19.6 N.

The rope’s tension is 19.6 N, which is smaller than the hanging mass’s weight (58.8 N) because part of the weight accelerates the system.

More Multiple Choice Questions
Subscribe

Get the latest from Examzify

You can unsubscribe at any time. Read our privacy policy