Explanation Given: The mass of the particle is m = 2 kg . The velocity of the particle is 15 m/s . The position the particle is shown in Figure (1). Write the formula for angular momentum ( H P ) about point P . H P = ∑ m v d = m v x d y − m v y d x = m ( v x d y − v y d x ) (I) Here, m is the mass, v is the velocity, d is the distance of the particle and x , y indicates the along x , y axes. Conclusion: Calculate the angular momentum of the particle ( H P ) about point P . From Figure (1). The velocity of the particle along x − a x i s is v x = 15 m/s × sin 30 ° = 7.5 m/s The velocity of the particle along y − a x i s is v y = 15 m/s × cos 30 ° = 12.9904 m/s From Figure (1)

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Chapter 15, Problem 20FP

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The angular momentum (HP) of the particle about the point P .

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Chapter 15, Problem 19FP

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180- Dimensions in mm 100 100 D E Steel B Brass 60 kN 40 kN 40-mm diam. 30-mm diam. PROBLEM 2.40 Solve Prob. 2.39, assuming that rod AC is made of brass and rod CE is made of steel. PROBLEM 2.39 Two cylindrical rods, one of steel and the other of brass, are joined at C and restrained by rigid supports at A and E. For the loading shown and knowing that E = 200 GPa and E, 105 GPa, determine (a) the reactions at A and E, (b) the deflection of point C. = R = 45.5 kN ← A

Dimensions in mm 100 100 -180- -120-+- C D Steel B Brass 60 kN 40 kN 40-mm diam. 30-mm diam. E PROBLEM 2.39 Two cylindrical rods, one of steel and the other of brass, are joined at Cand restrained by rigid supports at A and E. For the loading shown and knowing that E = 200 GPa and E₁ = 105 GPa, determine (a) the reactions at A and E, (b) the deflection of point C.

(read image) (Answer: vE = 0.514 m/s)

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The angular momentum ( H P ) of the particle about the point P .

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The angular momentum (HP) of the particle about the point P .

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