A solid copper sphere of density ρ , specific heat capacity C and radius r is initially at 200 K . It is suspended inside a chamber whose walls are at 0 K . The time required (in μ s ) for the temperature of the sphere to drop to 100 K is ( σ is Stefan's constant and all the quantities are in SI units.)

Question

A solid copper sphere of density ρ , specific heat capacity C and radius r is initially at 200 K . It is suspended inside a chamber whose walls are at 0 K . The time required (in μ s ) for the temperature of the sphere to drop to 100 K is ( σ is Stefan's constant and all the quantities are in SI units.), 48 σ r ρC ​, 48 1 ​ σ r ρC ​, 7 27 ​ σ r ρC ​, 27 7 ​ σ r ρC ​

MARKS App · Accepted Answer

Here, T = 200 K and T 0 ​ = 0 K As the rate of fall of temperature, $ Δ t Δ T ​ = m s σ A e ( T 4 − T 0 4 ​ ) ​ w h ere , \sigma= St e f a n ′ sco n s t an t , A= a re a o f s p h ere , an d e= e mi ss i v i t y =1 an d S= s p ec i f i c h e a t c a p a c i t y . ​ So, t = σ A ( T 4 − T 0 4 ​ ) m s Δ T ​ ( ∵ T 0 ​ = 0 K ) ⇒ t = σ ( A ) ( 20 0 4 − 0 4 ) ( ρ V ) C ( 200 K − 100 K ) ​ ⇒ t = σ 4 π r 2 × ( 200 ) 4 ρ 3 4 ​ π r 3 C × 100 ​ ⇒ t = 48 1 ​ σ r ρC ​ × 1 0 − 6 s = 48 1 ​ σ ρ r C ​ μ s ​ $ Hence, the correct option is (b).

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