An object of mass m₁ = 4.00 kg is tied to an object of mass m₂ = 3.00 kg with String 1 of length 1 = 0.500 m. The combination is swung in a vertical circle on a second string, String 2, of length 1 = 0.500 m. During the motion, the two strings remain in line with one another as shown. At the top of its motion, m₂ is traveling at v = 4.00 m/s. a. Draw the force diagrams for both objects when at the top of the swing. m1 String 1 String mo b. Given that m2 is traveling at v₂ = 4.00 m/s at the top, what must be the velocity of m₁ at this point? You should be able to reason it out.
An object of mass m₁ = 4.00 kg is tied to an object of mass m₂ = 3.00 kg with String 1 of length 1 = 0.500 m. The combination is swung in a vertical circle on a second string, String 2, of length 1 = 0.500 m. During the motion, the two strings remain in line with one another as shown. At the top of its motion, m₂ is traveling at v = 4.00 m/s. a. Draw the force diagrams for both objects when at the top of the swing. m1 String 1 String mo b. Given that m2 is traveling at v₂ = 4.00 m/s at the top, what must be the velocity of m₁ at this point? You should be able to reason it out.
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![An object of mass m₁ = 4.00 kg is tied to an object of mass m₂ = 3.00 kg with
String 1 of length 1 = 0.500 m. The combination is swung in a vertical circle
on a second string, String 2, of length 1 = 0.500 m. During the motion, the
two strings remain in line with one another as shown. At the top of its
motion, m₂ is traveling at v = 4.00 m/s.
a. Draw the force diagrams for both objects when at the top of the swing.
1
mi
String 1
mo
String 2
b. Given that m2 is traveling at v₂ = 4.00 m/s at the top, what must be the velocity of m₁ at this point? You should
be able to reason it out.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F1d387a19-5f92-4469-b278-360c65bf454f%2Fe4d8afe7-ef9e-48ed-bb99-04784c998465%2Fh5u1zn_processed.png&w=3840&q=75)
Transcribed Image Text:An object of mass m₁ = 4.00 kg is tied to an object of mass m₂ = 3.00 kg with
String 1 of length 1 = 0.500 m. The combination is swung in a vertical circle
on a second string, String 2, of length 1 = 0.500 m. During the motion, the
two strings remain in line with one another as shown. At the top of its
motion, m₂ is traveling at v = 4.00 m/s.
a. Draw the force diagrams for both objects when at the top of the swing.
1
mi
String 1
mo
String 2
b. Given that m2 is traveling at v₂ = 4.00 m/s at the top, what must be the velocity of m₁ at this point? You should
be able to reason it out.
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