A stop block, s, prevents a crate from sliding down a = 35.0 incline. (Figure 1) A tensile force F= (Fot) N acts on the crate parallel to the incline, where Fo=295 N/s. If the coefficients of static and kinetic friction between the crate and the incline are = 0.330 and μ = 0.190, respectively, and the crate has a mass of 42.6 kg, how long will it take until the crate reaches a velocity of 3.68 m/s as it moves up the incline? Express your answer numerically in seconds to three significant figures. View Al

A stop block, s, prevents a crate from sliding down a = 35.0 incline. (Figure 1) A tensile force F= (Fot) N acts on the crate parallel to the incline, where Fo=295 N/s. If the coefficients of static and kinetic friction between the crate and the incline are = 0.330 and μ = 0.190, respectively, and the crate has a mass of 42.6 kg, how long will it take until the crate reaches a velocity of 3.68 m/s as it moves up the incline? Express your answer numerically in seconds to three significant figures. View Al

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A stop block, s, prevents a crate from sliding down a = 35.0° incline. (Figure 1) A tensile force F= (Fot) N acts on the crate parallel to the incline, where Fo=295 N/s. If the coefficients of static and kinetic
friction between the crate and the incline are μ = 0.330 and μ = 0.190, respectively, and the crate has a mass of 42.6 kg, how long will it take until the crate reaches a velocity of 3.68 m/s as it moves up the
incline?
Express your answer numerically in seconds to three significant figures.
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