For the shown system of masses (m₁ = 10 kg & m₂ = 5 kg) and pulleys if the masses are moving in a vertical plane and started the motion from rest when m₁ at distance 36 cm from F-20 N the ground. Write the equation of motion for both masses and determine: The tension in the string. (Neglect the masses of the pulleys, assume the system is frictionless, and the wire is non extensible) 24.18 N O 21.71 N 20.65 N 18.65 N 28,45 N O 10.76 N m₁ 36cm m₂
For the shown system of masses (m₁ = 10 kg & m₂ = 5 kg) and pulleys if the masses are moving in a vertical plane and started the motion from rest when m₁ at distance 36 cm from F-20 N the ground. Write the equation of motion for both masses and determine: The tension in the string. (Neglect the masses of the pulleys, assume the system is frictionless, and the wire is non extensible) 24.18 N O 21.71 N 20.65 N 18.65 N 28,45 N O 10.76 N m₁ 36cm m₂
University Physics Volume 1
18th Edition
ISBN:9781938168277
Author:William Moebs, Samuel J. Ling, Jeff Sanny
Publisher:William Moebs, Samuel J. Ling, Jeff Sanny
Chapter5: Newton's Law Of Motion
Section: Chapter Questions
Problem 108CP: In a particle accelerator, a proton has mass 1.6710-27kg and an initial speed of 2.00105m/s . It...
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![For the shown system of masses
(m₁ = 10 kg & m₂ = 5 kg)
and pulleys if the masses are
moving in a vertical plane and
started the motion from rest
when m₁ at distance 36 cm from F=20 N
the ground.
Write the equation of motion for
both masses and determine:
The tension in the string.
(Neglect the masses of the
pulleys, assume the system is
frictionless, and the wire is non
extensible)
O24.18 N
O 21.71 N
20.65 N
18.65 N
28,45 N
10.76 N
m₁
36cm
m2](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F8e83c7a3-0e19-4d48-8bb9-1eaff932e2a9%2F20d06c58-c4a9-4527-9a79-4d985a2510f2%2Fhzaxbye_processed.jpeg&w=3840&q=75)
Transcribed Image Text:For the shown system of masses
(m₁ = 10 kg & m₂ = 5 kg)
and pulleys if the masses are
moving in a vertical plane and
started the motion from rest
when m₁ at distance 36 cm from F=20 N
the ground.
Write the equation of motion for
both masses and determine:
The tension in the string.
(Neglect the masses of the
pulleys, assume the system is
frictionless, and the wire is non
extensible)
O24.18 N
O 21.71 N
20.65 N
18.65 N
28,45 N
10.76 N
m₁
36cm
m2
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