Answer to Question #222690 in Classical Mechanics for Desmond

Question #222690

A mass of 0.4kg is rotated by a string at constant speed v in a vertical circle. R=1m. If the minimum tension is 3N. Calculate

a) v

b) maximum tension when string is horizontal

Expert's answer

"m =0.4kg;R = 1m;T_{min}= 3N"

"\\vec g = 9.8\\frac{m}{S^2}"

"\\vec F = m\\vec a"

"\\vec a = \\frac{v^2}{R}= v^2\\text{ etc. }R=1"

"\\vec F=\\vec F_g+\\vec{T}"

"\\vec F_g = m\\vec g"

"\\vec T= \\vec F- \\vec F_g= m(\\vec a- \\vec g)"

"T_{min} = m (a-g)"

"a = \\frac{T_{min}}{m}+g= \\frac{3}{0.4}+9.8=17.3\\frac{m}{s^2}"

"a) a = \\frac{v^2}{R}"

"v= \\sqrt{aR}= \\sqrt{17.3*1}=4.16\\frac{m}{s}"

"b)\\text{ maximum tension when string is horizontal}"

"\\vec F=\\vec F_g+\\vec{T}"

"\\text{Projection of forces on the horizontal axis:}"

"F_x=T"

"T = |\\vec F|= ma= 0.4*17.3= 6.92N"

"\\text{Answer: }a)v=4.16\\frac{m}{s};b)T = 6.92 N"

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