6. Robots are pulling on a toy at the same time and the toy is not moving. Robot A is applying 10.235 N to the toy at an angle of 155°. Robot B is applying 24.762N to the toy at an angle of 68°. What is the magnitude and direction Robot C must exert in order for the toy to exist in a state of equilibrium?
6. Robots are pulling on a toy at the same time and the toy is not moving. Robot A is applying 10.235 N to the toy at an angle of 155°. Robot B is applying 24.762N to the toy at an angle of 68°. What is the magnitude and direction Robot C must exert in order for the toy to exist in a state of equilibrium?
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Transcribed Image Text:6. Robots are pulling on a toy at the same time and the toy is not moving. Robot A is applying 10.235 N to
the toy at an angle of 155°. Robot B is applying 24.762N to the toy at an angle of 68°. What is the
magnitude and direction Robot C must exert in order for the toy to exist in a state of equilibrium?
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