We appreciate your visit to In the Atwood machine shown below tex m 1 2 00 text kg tex and tex m 2 5 60 text kg tex The masses. This page offers clear insights and highlights the essential aspects of the topic. Our goal is to provide a helpful and engaging learning experience. Explore the content and find the answers you need!
Answer :
Final answer:
In an Atwood machine, to find how far the lighter mass will descend, we calculate the system's acceleration and use it along with the initial velocity in a kinematic equation to find the displacement.
Explanation:
To solve the problem of how far mass m1 will descend in an Atwood machine, we must first calculate the acceleration of the system. We can use the following equation of motion due to net force acting on the system:
a = g(m2 - m1) / (m1 + m2)
Where
a is the acceleration,
g is the acceleration due to gravity (9.81 m/s2), m1 is the mass of the lighter object, and m2 is the mass of the heavier object. Once we have the acceleration, we can find the displacement (d) using the kinematic equation:
d = vi2 / (2a)
Where
vi is the initial velocity and
a is the acceleration we calculated. By substituting the given initial velocity and calculated acceleration, we can find the displacement that m1 will descend below its initial level.
Thanks for taking the time to read In the Atwood machine shown below tex m 1 2 00 text kg tex and tex m 2 5 60 text kg tex The masses. We hope the insights shared have been valuable and enhanced your understanding of the topic. Don�t hesitate to browse our website for more informative and engaging content!
- Why do Businesses Exist Why does Starbucks Exist What Service does Starbucks Provide Really what is their product.
- The pattern of numbers below is an arithmetic sequence tex 14 24 34 44 54 ldots tex Which statement describes the recursive function used to..
- Morgan felt the need to streamline Edison Electric What changes did Morgan make.
Rewritten by : Barada
