Answer:B
Explanation:
Given
radius of Pulley is r
Pulley has a moment of inertia is I
Suppose mass is falling with an acceleration a and T be the Tension in string
[tex]mg-T=ma[/tex]
[tex]T=m(g-a)[/tex]
And [tex]I\times \alpha =T\times R[/tex]
[tex]I\times \frac{a}{R}=T\times R[/tex]
[tex]I\times \frac{a}{R}=m(g-a)\times R[/tex]
[tex]I=\frac{mR^2(g-a)}{a}[/tex]
and Torque is [tex]I\alpha [/tex]
[tex]\tau =\frac{mR^2(g-a)}{a}\times \alpha [/tex]
[tex]\tau =\frac{mR^2(g-a)}{a}\times \frac{a}{R}[/tex]
[tex]\tau =mR(g-a)[/tex]
Which is less than [tex]mgR[/tex]
