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As shown in the figure, an object (block) with mass M is attached by two strings. The object is at equilibrium condition (at rest). What is the tension force direction of the left string onto the block? M O Directed toward the left O Directed toward the right O Directed upwards O Directed downward O Directed toward up-left O Directed toward up-right O Directed toward down-left O Directed toward down-rightAs shown in the figure, an object (block) with mass M is attached by two strings. The object is at equilibrium condition (at rest). What is the tension force direction of the right string onto the block? M O Directed toward the left O Directed toward the right O Directed upwards O Directed downward O Directed toward up-left O Directed toward up-right O Directed toward down-left O Directed toward down-rightAs shown in the figure, an object (block) with mass M is attached by two strings. The object is 02 at equilibrium condition (at rest). What is the tension force direction of the left string onto the block? M O Directed toward the left O Directed toward the right O Directed upwards O Directed downward O Directed toward up-left O Directed toward up-right O Directed toward down-left O Directed toward down-rightAs shown in the figure, an object (block) with mass M is attached by two strings. The object is 01 at equilibrium condition (at rest). What is the tension force direction of the the right string onto the block? M O Directed toward the left O Directed toward the right O Directed upwards O Directed downward O Directed toward up-left O Directed toward up-right O Directed toward down-left O Directed toward down-rightA block a mass of m is tied to a tree on a frictionless incline with an angle of E} as shown in the Figure. The object is at equilibrium condition {at rest). What is What is the tension force direction of the string onto the block? Directed toward the left Directed toward the right Directed upwards Directed downward Directed toward up-Ieft Directed toward up-right Directed toward down-left OOOOOOOO Directed toward down-right A block a mass of m is tied to a tree on a frictionless incline with an angle of E} as shown in the Figure. The object is at equilibrium condition {at rest). What is the the incline surface normal force direction onto the block? Directed toward the left Directed toward the right Directed upwards Directed downward Directed toward up-Ieft Directed toward up-right Directed toward down-left OOOOOOOO Directed toward down-right block of mass m is pushed against a wall by a string that makes an an angle of 6 with the horizontal as shown in the Figure. What is the tension force direction of the string onto the block? Directed toward the left Directed toward the right Directed upwards Directed downward Directed toward up-Ieft Directed toward up-right Directed toward down-left OOOOOOOO Directed toward down-right block of mass m is pushed against a wall by a string that makes an an angle of 6 with the horizontal as shown in the Figure. What is the surface normal force direction of the wall onto the block? Directed toward the left Directed toward the right Directed upwards Directed downward Directed toward up-left Directed toward up-right Directed toward down-left OOOOOOOO Directed toward down-right An object with mass m1 rests on a frictionless horizontal table and is connected to a cable that passes over a pulley and is then fastened to a hanging object with mass mg, as shown in the Figure. What is the tension force direction of the string onto the block m1? Directed toward the left Directed toward the right Directed upwards Directed downward Directed toward up-Ieft Directed toward up-right Directed toward down-left OOOOOOOO Directed toward down-right An object with mass m1 rests on a frictionless horizontal table and is connected to a cable that passes over a pulley and is then fastened to a hanging object with mass mg, as shown in the Figure. What is the tension force direction of the string onto the block m2? Directed toward the left Directed toward the right Directed upwards Directed downward Directed toward up-Ieft Directed toward up-right Directed toward down-left OOOOOOOO Directed toward down-right Two blocks of masses m1 and m2 are connected by a light string that passes over a frictionless pulley as in the Figure. The m1 crate lies on a smooth incline .What is the direction of the tension force of the string onto the block m1? Directed toward the left Directed toward the right Directed upwards Directed downward Directed toward up-left Directed toward up-right Directed toward down-left OOOOOOOO Directed toward down-right Two blocks of masses m1 and m2 are connected by a light string that passes over a frictionless pulley as in the Figure. The m1 crate lies on a smooth incline .What is the direction of the gravitational force of the earth onto the block m1? Directed toward the left Directed toward the right Directed upwards Directed downward Directed toward up-Ieft Directed toward up-right Directed toward down-left OOOOOOOO Directed toward down-right A block with mass m attached to two strings as shown in the gure is under equilibrium. The force notations are given: tension on left string is T1] and tension on right string is T2 at a] [10%] How many total forces onto to the block? a b) [45%] Write the equation when block is under equilibrium in the horizontal (x) direction: a c) [45%] Write the equation when block is under equilibrium in the vertical (y) direction: A block with mass m attached to two strings as shown in the gure is under equilibrium. The force notations are given: tension on left string is T1] and tension on right string is T2 a a) [10%] How many total forces onto to the block? a b) [45%] Write the equation when block is under equilibrium in the horizontal (x) direction: a c] [45%] Write the equation when block is under equilibrium in the vertical {y} direction: A block with mass m is on an incline with an angle of B as shown in the gure. The block is secured by a string so that it is under equilibrium. The force notations are given: the normal force of the incline is N; and tension on string is T. u a) [10%] How man];r total forces onto to the block? a bl [45%] Write the equation when block is under equilibrium in the {x3 direction: a c) [45%] Write the equation when block is under equilibrium in the {y} direction