[" A bead of mass "m" is located on a pa...

[" A bead of mass "m" is located on a parabolic wire with its axis vertical and vertex at the origin as shown in IIgure "],[" whose equation is "x^(2)=4" ay.The wire frame is fixed and the bead can slide on it without friction.The bead is "],[" released from the point "y=4a" on the frame from rest.The tangential acceleration of the bead when it reaches th "],[" position given by "y=a" is: "]

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A bead of mass m is located on a parabolic wire with its axis vertical and vertex at the origin as shown in figure and whose equastion is x^(2) =4ay . The wire frame is fixed and the bead is released from the point y=4a on the wire frame from rest. The tangential acceleration of the bead when it reaches the position given by y=a is

A bead of mass m is located on a parabolic wire with its axis vertical and vertex at the origin as shown in figure and whose equastion is x^(2) =4ay . The wire frame is fixed and the bead is released from the point y=4a on the wire frame from rest. The tangential acceleration of the bead when it reaches the position given by y=a is

A bead of mass m is located on a parabolic wire with its axis vertical and vertex at the origin as shown in figure and whose equastion is x^(2) =4ay . The wire frame is fixed and the bead is released from the point y=4a on the wire frame from rest. The tangential acceleration of the bead when it reaches the position given by y=a is

A bead of mass m is located on a parabolic wire with its axis vertical and vertex directed towards downwards as in figure and whose equation is x^2=ay . If the coefficient of friction is mu , the highest distance above the x-axis at which the particle will be in equilibrium is

A bead of mass m is located on a parabolic wire with its axis vertical and vertex directed towards downwards as in figure and whose equation is x^2=ay . If the coefficient of friction is mu , the highest distance above the x-axis at which the particle will be in equilibrium is

A bead of mass m is located on a parabolic wire with its axis vertical and vertex directed towards downwards as in figure and whose equation is x^2=ay . If the coefficient of friction is mu , the highest distance above the x-axis at which the particle will be in equilibrium is

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A head slide without friction around a loop the (figure). The bead slide is released is from rest at a height h = 3.50R . How large is the normal force on the bead at point (A) if its mass is 50 g ?

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