At a particular instant, a 1.0 kg particle's position is r= (5.01-3.0 +4.0k) m, its velocity is v= (-1.01 + 3.0ĵ+ 1.0k) m/s, and the force on it is (13.01 +14.05) N. (Express your answers in vector form.) (a) What is the angular momentum (in kg-m²/s) of the particle about the origin? 7- kg-m²/s (b) What is the torque (in N-m) on the particle about the origin? N-m (c) What is the time rate of change of the particle's angular momentum about the origin at this instant (in kg-m²/s2)? di kg-m²/s² of
At a particular instant, a 1.0 kg particle's position is r= (5.01-3.0 +4.0k) m, its velocity is v= (-1.01 + 3.0ĵ+ 1.0k) m/s, and the force on it is (13.01 +14.05) N. (Express your answers in vector form.) (a) What is the angular momentum (in kg-m²/s) of the particle about the origin? 7- kg-m²/s (b) What is the torque (in N-m) on the particle about the origin? N-m (c) What is the time rate of change of the particle's angular momentum about the origin at this instant (in kg-m²/s2)? di kg-m²/s² of
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![At a particular instant, a 1.0 kg particle's position is r= (5.01-3.05 +4.0k) m, its velocity is v= (-1.01 +3.05 +1.0k) m/s, and the force on it is
F=(13.01 +14.05) N. (Express your answers in vector form.
(a) What is the angular momentum (in kg-m²/s) of the particle about the origin?
kg-m²/s
(b) What is the torque (in Nm) on the particle about the origin?
N-m
(c) What is the time rate of change of the particle's angular momentum about the origin at this instant (in kg. m²/s2)?
di
kg-m²/s²
dt](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F729e3c5f-f0e4-4186-ad10-064ad4203c2d%2Fc53e26bb-9bf8-4f7c-941f-43a7f4117126%2Fg4qzrw5_processed.jpeg&w=3840&q=75)
Transcribed Image Text:At a particular instant, a 1.0 kg particle's position is r= (5.01-3.05 +4.0k) m, its velocity is v= (-1.01 +3.05 +1.0k) m/s, and the force on it is
F=(13.01 +14.05) N. (Express your answers in vector form.
(a) What is the angular momentum (in kg-m²/s) of the particle about the origin?
kg-m²/s
(b) What is the torque (in Nm) on the particle about the origin?
N-m
(c) What is the time rate of change of the particle's angular momentum about the origin at this instant (in kg. m²/s2)?
di
kg-m²/s²
dt
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