Note: use g=10 m/s2 In your calculations1,RTwo blocks with masses m and mz areconnected by a light string passing over a pulley ofradius R and moment of inertia I. The kinetic1.friction coefficient between the boxes and inclinedplanes are respectively given by 1 and uz. Thesystem starts from its rest position, and motionsets in the direction of mass m2.(a) Write an expression for the linear acceleration a as a function of the parameters m, m2, Hsr Hz, R,I and inclination angles.(b) For the given system parameters:m1(kg)m2(kg)01(0)02(*)I(kg.m²)R(m)1.53.545603.01.5Fill in the following table for string tension forces and accelerations corresponding to the given twocases:- Case 1: Inclined planes with kinetic friction coefficients u, = 0.2 and uz = 0.8.- Case 2: Frictionless planes and ignorable mass of the disk.Table 1: Problem 1 (Express your answer in three decimal places)T(N)T2(N)a (m/s²)a (rad/s²)Case-1Case-2

The above question is based on Equilibrium of forces in the mass pulley system on the inclined…

Note: use g=10 m/s In your calculations I,R Two blocks with masses m, and m2 are connected by a light string passing over a pulley of radius R and moment of inertia I. The kinetic 1. friction coefficient between the boxes and inclined planes are respectively given by 1 and uz. The system starts from its rest position, and motion sets in the direction of mass m2. (a) Write an expression for the linear acceleration a as a function of the parameters m,, m2, H, Hz, R, I and inclination angles. (b) For the given system parameters: m1 (kg) m2(kg) 01(0) 02(*) I(kg.m²) R(m) 1.5 3.5 45 60 3.0 1.5 Fill in the following table for string tension forces and accelerations corresponding to the given two cases: - Case 1: Inclined planes with kinetic friction coefficients H1 = 0.2 and µz = 0.8. - Case 2: Frictionless planes and ignorable mass of the disk. Table 1: Problem 1 (Express your answer in three decimal places) a (m/s²) T(N) T2(N) a (rad/s²) Case-1 Case-2

Note: use g=10 m/s In your calculations I,R Two blocks with masses m, and m2 are connected by a light string passing over a pulley of radius R and moment of inertia I. The kinetic 1. friction coefficient between the boxes and inclined planes are respectively given by 1 and uz. The system starts from its rest position, and motion sets in the direction of mass m2. (a) Write an expression for the linear acceleration a as a function of the parameters m,, m2, H, Hz, R, I and inclination angles. (b) For the given system parameters: m1 (kg) m2(kg) 01(0) 02(*) I(kg.m²) R(m) 1.5 3.5 45 60 3.0 1.5 Fill in the following table for string tension forces and accelerations corresponding to the given two cases: - Case 1: Inclined planes with kinetic friction coefficients H1 = 0.2 and µz = 0.8. - Case 2: Frictionless planes and ignorable mass of the disk. Table 1: Problem 1 (Express your answer in three decimal places) a (m/s²) T(N) T2(N) a (rad/s²) Case-1 Case-2

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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Question

Note: use g=10 m/s2 In your calculations
1,R
Two blocks with masses m and mz are
connected by a light string passing over a pulley of
radius R and moment of inertia I. The kinetic
1.
friction coefficient between the boxes and inclined
planes are respectively given by 1 and uz. The
system starts from its rest position, and motion
sets in the direction of mass m2.
(a) Write an expression for the linear acceleration a as a function of the parameters m, m2, Hsr Hz, R,
I and inclination angles.
(b) For the given system parameters:
m1(kg)
m2(kg)
01(0)
02(*)
I(kg.m²)
R(m)
1.5
3.5
45
60
3.0
1.5
Fill in the following table for string tension forces and accelerations corresponding to the given two
cases:
- Case 1: Inclined planes with kinetic friction coefficients u, = 0.2 and uz = 0.8.
- Case 2: Frictionless planes and ignorable mass of the disk.
Table 1: Problem 1 (Express your answer in three decimal places)
T(N)
T2(N)
a (m/s²)
a (rad/s²)
Case-1
Case-2

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