Mass A (mA=0.50kg) is initially at rest, compressed against a spring of spring constant 5070N/m for a compression of x=0.035m. It's then let go and collides with mass B (mB=0.79kg), initially at rest, in a perfectly inelastic collision. The combined masses then travel on a curved incline to an angle of 15 degrees before stopping. What is the radius of the curve? You may treat the objects as point masses. Assume all
Mass A (mA=0.50kg) is initially at rest, compressed against a spring of spring constant 5070N/m for a compression of x=0.035m. It's then let go and collides with mass B (mB=0.79kg), initially at rest, in a perfectly inelastic collision. The combined masses then travel on a curved incline to an angle of 15 degrees before stopping. What is the radius of the curve? You may treat the objects as point masses. Assume all
University Physics Volume 1
18th Edition
ISBN:9781938168277
Author:William Moebs, Samuel J. Ling, Jeff Sanny
Publisher:William Moebs, Samuel J. Ling, Jeff Sanny
Chapter6: Applications Of Newton's Laws
Section: Chapter Questions
Problem 76P: The CERN particle accelerator is circular with a circumference of 7.0 km. (a) What is the...
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Mass A (mA=0.50kg) is initially at rest, compressed against a spring of spring constant 5070N/m
for a compression of x=0.035m. It's then let go and collides with mass B (mB=0.79kg), initially
at rest, in a perfectly inelastic collision. The combined masses then travel on a curved incline to
an angle of 15 degrees before stopping. What is the radius of the curve?
You may treat the objects as point masses. Assume all surfaces are frictionless.
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