The wheels of the refrigerator of the figure are stuck and will not turn. The refrigerator weighs 600 N. Assume a coefficient of friction between the wheels and the floor of 0.6 and determine the force necessary to cause the refrigerator to just start to move (impending motion). Also determine the maximum height h at which the force can be applied without causing the refrigerator to tip over.

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located or O. TE the ceese o A Quiz: (M4S1-F A Convert newtons to Ibs - Conve The two homogeneous bars AB 14S1-FORMATIVE] Friction in -u.instructure.com/courses/56017/quizzes/411388/take/questions/3456328 Question 2 Question Bank - Friction The wheels of the refrigerator of the figure are stuck and will not turn. The refrigerator weighs 600 N. Assume a coefficient of friction between the wheels and the floor of 0.6 and determine the force necessary to cause the refrigerator to just start to move (impending motion). Also determine the maximum height h at which the force can be applied without causing the refrigerator to tip over. 0.8 m Technolagy Driven by fnnovation height h in meters ? (1-2 Decimals are accepted) Next msi OThe macs of he, vanoganced ddc the cylinder the inclined be at reet in the postion shown to the indine R-W cos 20-0 FRICTION IN STATIC SYSTEMS urfaces respectively are in equilibrium position as o blocks as well as the block B and the floor B. Sample Problem 3. Friction in Inclined Surfaces At what angle can the plane be tilted to keep a 10-kg b between the box and the inclined plane? R-R2-W 0 -W+Tsin 300