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 .
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A rock climber hangs freely from a nylon rope that is 16 m long and has...
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.
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.
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 .
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 1.3 cm in diameter. When supporting a(n) 83-kg climber, the rope elongates 1.5 m. Find its Young's modulus.
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
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.
A rock climber, of mass 49.0 kg, having pegged her 8.00 m long rope to the rock face at her height, loses her footing and falls freely and vertically until her fall is checked by the rope which stretches 12% of its original length. Neglect the mass of the rope and air resistance. Assuming the rope behaves like a spring, what is its spring constant?
After a fall, a 91 kg rock climber finds himself dangling from the end of a rope that had been 18 m long and 8.0 mm in diameter but has stretched by 2.0 cm. For the rope, calculate (a) the strain, (b) the stress, and (c) the Young's modulus.
After a fall, a 97 kg rock climber finds himself dangling from the end of a rope that had been 19 m long and 11 mm in diameter but has stretched by 3.4 cm. For the rope, calculate (a) the strain, (b) the stress, and (c) the Young's modulus.