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Kamlesh Saxena
Asked: 2022-11-09T09:13:09+05:30 In:

A circular disc `A` of radius `r` is made from an iron plate of thickness `t` and another circular disc `B` of radius `4r` is made from an iron plate of thickness `t//4`. Equal torques act on the discs `A` and `B`, initially both being at rest. At a later instant, the linear speeds of a point on the rim of `A` and another point on the rim of `B` are `v_(A)` and `v_(B)`, respectively. We have
A. `v_(A) gt v_(B)`
B. `v_(A) = v_(B)`
C. `v_(A) lt v_(B)`
D. The relation depends on the actual magnitude of the torques.

A circular disc `A` of radius `r` is made from an iron plate of thickness `t` and another circular disc `B` of radius `4r` is made from an iron plate of thickness `t//4`. Equal torques act on the discs `A` and `B`, initially both being at rest. At a later instant, the linear speeds of a point on the rim of `A` and another point on the rim of `B` are `v_(A)` and `v_(B)`, respectively. We have
A. `v_(A) gt v_(B)`
B. `v_(A) = v_(B)`
C. `v_(A) lt v_(B)`
D. The relation depends on the actual magnitude of the torques.
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  1. `m_(A)=rhoxxpir^(2)t=m`
    `m_(B)=rhoxxpi(4r)^(2)(t)/(4)=4m`
    `I_(A)=(1)/(2)mr^(2)=I,I_(B)=(1)/(2)xx4m(4r)^(2)=64I`
    `alpha_(A)=(tau)/(I)=alpha_(0), alpha_(B)=(tau)/(64I), omega=0+alphat`
    `v_(A)=omega_(A)r=alpha_(0)rt`
    `v_(B)=omega_(B)4r=(alpha_(0)rt)/(16)`

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Aditya Srivastava
Asked: 2022-11-04T15:10:22+05:30 In:

A circular disc A of radius r is made from an iron plate of thickness t and another circular disc B of radius 4r is made from an iron plate of thickness t/4. The relation between the moments of inertia IA and IB is

(a) IA >IB

(b) IA =IB

(c) IA <IB

(d) depends on the actual values of t and r.

A circular disc A of radius r is made from an iron plate of thickness t and another circular disc B of radius 4r is made from an iron plate of thickness t/4. The relation between the moments of inertia IA and IB is

(a) IA >IB

(b) IA =IB

(c) IA <IB

(d) depends on the actual values of t and r.

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  1. (c) IA <I 

    Explanation: 

    Let the density of iron plate be ρ. 

    Mass of first disc m = πr²tρ 

    M.I. = IA = ½mr² == ½πr²tρr² = ½πr4tρ 

    Mass of second disc = M = π(4r)²(t/4)ρ = 4πr²tρ 

    M.I. = IB = ½M(4r)² = ½4πr²tρ16r² = 32πr4tρ 

    Clearly, IA < IB.

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Balaji Mukul Mistry
Asked: 2022-10-30T03:42:32+05:30 In:

A circular disc A of radius r is made from an iron plate of thickness t and another circular disc B of radius 4r is made from an iron plate of thickness `t//4`. The relation between the moments of inertia `I_(A)` and `I_(B)` is (about an axis passing through centre and perpendicular to the disc)
A. `l_(A)gtl_(B)`
B. `l_(A)=l_(B)`
C. `l_(A)ltl_(B)`
D. depends on the actul values of t and r

A circular disc A of radius r is made from an iron plate of thickness t and another circular disc B of radius 4r is made from an iron plate of thickness `t//4`. The relation between the moments of inertia `I_(A)` and `I_(B)` is (about an axis passing through centre and perpendicular to the disc)
A. `l_(A)gtl_(B)`
B. `l_(A)=l_(B)`
C. `l_(A)ltl_(B)`
D. depends on the actul values of t and r
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  1. Correct Answer – C

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Sushant Bhola Kakar
Asked: 2022-10-30T03:36:19+05:30 In:

A circular disc A of radius r is made from an iron plate of thickness t and another circular disc B of radius 4r is made from an iron plate of thickness 1/4. The relation between the moments of inertia IA and IB is 

(a) lA > IB 

(b) IA = IB 

(c)IA<IB 

(d) depends on the actual values of t and r.

A circular disc A of radius r is made from an iron plate of thickness t and another circular disc B of radius 4r is made from an iron plate of thickness 1/4. The relation between the moments of inertia IA and IB is 

(a) lA > IB 

(b) IA = IB 

(c)IA<IB 

(d) depends on the actual values of t and r.

Parabola
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  1. (c) IA <I 

    Explanation: 

    Let the density of iron plate be ρ. 

    Mass of first disc m = πr²tρ 

    M.I. = IA = ½mr² == ½πr²tρr² = ½πr4tρ 

    Mass of second disc = M = π(4r)²(t/4)ρ = 4πr²tρ 

    M.I. = IB = ½M(4r)² = ½4πr²tρ16r² = 32πr4tρ 

    Clearly, IA < IB.

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