For safety in climbing, a mountaineer uses a nylon rope that is 65 m long and 1.4 cm in diameter. When supporting a(n) 81-kg climber, the rope elongates 1.4 m. Find its Young's modulus.
For safety in climbing, a mountaineer uses a nylon rope that is 65 m long and...
For safety in climbing, a mountaineer uses a nylon rope that is 65 m long and 1.1 cm in diameter. When supporting a(n) 89-kg climber, the rope elongates 1.4 m. Find its Young's modulus. _____ Pa
For safety in climbing, a mountaineer uses a nylon rope that is 65 m long and 1.3 cm in diameter. When supporting a(n) 83-kg climber, the rope elongates 1.5 m. Find its Young's modulus.
Problem 3: Suppose a 65-kg mountain climber has a 0.72 cm diameter nylon rope. Randomized Variables m = 65 kg d = 0.72 cm l = 33 m By how much does the mountain climber stretch her rope, in centimeters, when she hangs 33 m below a rock outcropping? Assume the Young's modulus of the rope is 5 × 109 N/m2.
A rock climber hangs freely from a nylon rope that is 16 m long and has a diameter of 8.1 mm. If the rope stretches 4.2 cm, what is the mass of the climber? Young's modulus for nylon is Y=0.37 X 10^10 N/m^2 . solve step by step
Suppose a 65-kg mountain climber has a 0.86 cm diameter nylon rope. By how much does the mountain climber stretch her rope, in centimeters, when she hangs 37 m below a rock outcropping? Assume t modulus of the rope is 5 x 109 N/m2 .
A rock climber hangs freely from a nylon rope that is 14 mlong and has a diameter of 8.4 mm. If the rope stretches 4.7 cm , what is the mass of the climber? Young's modulus for nylon is Y=0.37×10^10 N/m2.
Mountain climbers use nylon safety rope whose elasticity plays an important role in cushioning the sharp jerk if a climber falls and is suddenly stopped by the rope. (a) Suppose that a climber of 80 kg attached to a 10 m rope falls freely from a height of 10 m above to a height of 10 m below the point at which the rope is anchored to a vertical wall of rock. Treating the rope as a spring with k...
After a fall, a 81 kg rock climber finds himself dangling from the end of a rope that had been 13 m long and 10 mm in diameter but has stretched by 2.6 cm. For the rope, calculate (a) the strain. (b) the stress, and (c) the Young's modulus.
Dynamic climbing ropes are designed to be quite pliant, allowing a falling climber to slow down over a long distance. The graph in (Figure 1) shows force-versus-strain data for an 11-mm -diameter climbing rope. Part A What is the Young's modulus for this rope ? Express your answer with the appropriate units. ? Ám a o Value Units Figure < 1 of 1 > Y = Submit Request Answer Force (N) 15,000+ Provide Feedback 10,000 5000- 0 0.10 0.30 0.40...
An 92.6-kg climber is scaling the vertical wall of a mountain. His safety rope is made of nylon that, when stretched, behaves like a spring with a spring constant of 1.14 103 N/m. He accidentally slips and falls freely for 0.738 m before the rope runs out of slack. How much is the rope stretched when it breaks his fall and momentarily brings him to rest?