A laboratory exercise on the concept of static equilibrium uses an apparatus called a force table. The force table consists of a round, level platform marked in degree increments about its circumference. In the center of the m, table sits a massless ring, to which three strings are tied. m, Each string is strung over a separate pulley clamped to the edge of the platform and then tied to a freely hanging mass, so that each string is under tension and the ring is suspended parallel to the table surface. m2 There is a mass of m = 153 g located at 0 = 26.5° and a second mass of m2 = 219 g located at 02 = 291°. Calculate the mass m3 and the location 03 (in degrees) that will balance the system and hold the ring stationary over the center of the platform. m3 = 03 =

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A laboratory exercise on the concept of static equilibrium uses an apparatus called a force table. The force table consists of a round, level platform marked in degree increments about its circumference. In the center of the table sits a massless ring, to which three strings are tied. m, Each string is strung over a separate pulley clamped to the edge of the platform and then tied to a freely hanging m, m, mass, so that each string is under tension and the ring is suspended parallel to the table surface. There is a mass of mj = 153 g located at 0 = 26.5° and a second mass of m2 = 219 g located at 02 = 291°. Calculate the mass m3 and the location 03 (in degrees) that will balance the system and hold the ring stationary over the center of the platform. m3 = 03 = er+stick+has+a+mass...