Can you please explain how Newton's Laws and Vectors relate to this problem? Thank you! The figure below shows a block (mass ma) on a smooth horizontal surface, connectedby a thin cord that passes over a pulley to a second block (mB), which hangs vertically.(a) Draw a free-body diagram for each block, showing the force of gravity on each,the force (tension) exerted by the cord, and any normal force. (b) Apply Newton'ssecond law to find formulas for the acceleration of the system and for the tension inthe cord. Ignore friction and the masses of the pulley and cord.Problems 32 and 33.Mass ma rests on asmooth horizontalsurface; mg hangsvertically.

Answered: Image /qna-images/answer/40e8e893-b434-4677-aa83-70bb61c9122e.jpg

Answered: The figure below shows a block (mass…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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Consider a satellite moving in a torque-free environment. The inertial frame and satellite body-fixed frame are represented by N-frame and B-frame, where {^₁, ñ2, ñ3} and {b₁, 62, 63} are right-handed vector bases fixed in N-frame and B-frame, respectively. {b} is aligned with the principal axis of inertia, where 6₁ and 63 are associated with the minimum and maximum moments of inertia, respectively. Denote the satellite angular velocity by w = wibį and the inertia tensor about the CoM by Ie. Suppose that I at time t = 0 is given by: Ic(t = 0) = 2ñ₁ñ₁ +2.25 ñ₂n₂ +2.25 ñ3ñ3 -0.75 n₂n3 -0.75 n3n2 (dimensionless) (a): First, let us characterize the inertia property of the satellite from the given information. (a.1): Express the satellite inertia tensor about the CoM in B-frame. Sketch the inertia ellipsoid of this body with B-frame.
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4. A symmetric body moves without the influence of forces or torques. Let X3 be the symmetric axis of the body and the angular momentum L be along x;. The angle between the angular velocity and x, is a. Let ö and L initially be in the x, - x, plane. What is the angular velocity of the symmetric axis about L in terms I1, 13, a, and a ?
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