(1) A mass m (=3 kg) is held in equilibrium by two strings as shown in the adjacent figure (Fig. 1). Find thetension Ti in string 1. (cos (37°) =0.8, sin (37°) =0.6), g =10m/s²)A) 50 NB) 30 NC) 40 ND) 20 NFig.1m37⁰2 (2) For Figure besides, mi= 1 kg is connected by a lightweight cord over amassless, frictionless pulley to m₂=4 kg. The inclined plane is frictionless.Find the acceleration of m₂ in m/s². (Fig.2)A) 6B) 5C) 2D) 10m₁= 1kgFig.2m₂ = 4kg30⁰

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Description: (1) A mass m (=3 kg) is held in equilibrium by two strings as shown in the adjacent figure (Fig. 1). Find thetension Ti in string 1. (cos (37°) =0.8, sin (37°) =0.6), g =10m/s²)A) 50 NB) 30 NC) 40 ND) 20 NFig.1m37⁰2 (2) For Figure besides, mi= 1 kg

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(1) A mass m (=3 kg) is held in equilibrium by two strings as shown in the adjacent figure (Fig. 1). Find the tension Ti in string 1. (cos (37°)=0.8, sin (37°) =0.6), g =10m/s²) A) 50 N B) 30 N C) 40 N D) 20 N Fig.1 1 m 37⁰ 2

(1) A mass m (=3 kg) is held in equilibrium by two strings as shown in the adjacent figure (Fig. 1). Find the tension Ti in string 1. (cos (37°)=0.8, sin (37°) =0.6), g =10m/s²) A) 50 N B) 30 N C) 40 N D) 20 N Fig.1 1 m 37⁰ 2

University Physics Volume 1

18th Edition

ISBN:9781938168277

Author:William Moebs, Samuel J. Ling, Jeff Sanny

Publisher:William Moebs, Samuel J. Ling, Jeff Sanny

Chapter2: Vectors

Section: Chapter Questions

Problem 21CQ: What is wrong with the following expressions? How can you correct them? (a) C=AB , (b) C=AB , (c)...

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