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.
Transcribed Image Text:r=?
Spring
Mass B
Mass A
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