4.(15%) The system shown in Figure 3 is inequilibrium with the string in the center exactlyhorizontal. If block A weighs 45.0N, block B weighs55.0N, and angle O equals 35°, please find:(a) tension T1; (b) tension T2;V=mar(c) tension T3; (d) angle 0.Amac : A uT3muてuu=エ 4.(15%) The system shown in Figure 3 is inequilibrium with the string in the center exactlyhorizontal. If block A weighs 45.0N, block B weighs55.0N, and angle O equals 35°, please find:(a) tension T1; (b) tension T2;V=mar(c) tension T3; (d) angle 0.Amac : A uT3muてuu=エ

The tensions T1 and T3in the strings can be resolved into components , T1 cos ϕ and T1 sin ϕ ; T3…

1.(15%) The system shown in Figure 3 is in equilibrium with the string in the center exactly norizontal. If block A weighs 45.ON, block B weighs 55.0N, and angle D equals 35°, please find: a) tension T1; (b) tension T2; $ V- Ao mar c) tension T3; (d) angle 0. Amas A u T3 mv H= Mr SOCA TOA

1.(15%) The system shown in Figure 3 is in equilibrium with the string in the center exactly norizontal. If block A weighs 45.ON, block B weighs 55.0N, and angle D equals 35°, please find: a) tension T1; (b) tension T2; $ V- Ao mar c) tension T3; (d) angle 0. Amas A u T3 mv H= Mr SOCA TOA

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Question

4.(15%) The system shown in Figure 3 is in
equilibrium with the string in the center exactly
horizontal. If block A weighs 45.0N, block B weighs
55.0N, and angle O equals 35°, please find:
(a) tension T1; (b) tension T2;
V=
mar
(c) tension T3; (d) angle 0.
Amac : A u
T3
mu
てuu=エ

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