Item 4 A rigid, uniform, horizontal bar of mass m, and length L is supported by two identical massless strings (Figure 1)Both strings are vertical String A is attached at a distance d Note that critical as computed in the previous part, is not necessarily positive. If antical <0, the bar will be stable no matter where the block of mass my is placed on it Assuming that my d. and L are held fixed, what is the maximum block mass mu for which the bar will always be stable? In other words, what is the maximum block mass such that Fritical 0 Answer in terms of my, d, and L. View Available Hint(s) Submit Hint 1. Requirement of stability If zis calculated to be less than zero, the solution is unphysical (The bar does not extend there to support it) The minimum value that z can have is obviously zero. If m is less than the mass that would give critical =0 then the bar will be stable for any physical value of z ΜΕ ΑΣΦΑ A C Request Answer < 4 of 5. 4 of 5 = Review Constants ?

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Item 4 A rigid, uniform, horizontal bar of mass my and length L is supported by two identical massless strings (Figure 1)Both strings are vertical String A is attached at a distance d<L/2 from the left end of the bar and is connected to the ceiling; string B is attached to the left end of the bar and is connected to the floor. A small block of mass m₂ is supported against gravity by the bar at a distance from the left and of the bar, as shown in the figure Figure String A X L M₂ <1 of 1 Note that critial, as computed in the previous part, is not necessarily positive. If critical <0, the bar will be stable no matter where the block of mass m₂ is placed on it Assuming that mi, d, and I are held fixed, what is the maximum block mass ma for which the bar will always be stable? In other words, what is the maximum block mass such that critical S0? Answer in terms of mi, d, and L. View Available Hint(s) 171max= Hint 1. Requirement of stability If z is calculated to be less than zero, the solution is unphysical (The bar does not extend there to support it) The minimum value that can have is obviously zero. If m is less than the mass that would give critical = 0 then the bar will be stable for any physical value of Submit VE ΑΣΦΑ Request Answer n F 4 of 5 X Review | Constants ?