Question

How long does it take the Sun to melt a block of ice at 0∘C with a flat horizontal area 1.0 m2 and thickness 2.0 cm ? Assume that the Sun's rays make an angle of 32 ∘ with the vertical and that the emissivity of ice is 0.050.
Express your answer to two significant figures and include the appropriate units.

Answer 1

Answer:

It takes 40 hours to melt the block of ice.

Explanation:

According to the principles of radiation and heat transfer respectively:

ΔQ = I(dt)eAcosθ  (I = Solar energy density; dt = time taken; e = emissivity; A = Area of block; θ = angle between the sun ray and the horizontal)

ΔQ = mLf  (ΔQ = Heat change; m = mass of ice; Lf = Specific latent heat of fusion of ice)

but m = ρV = ρ.A.dx, therefore, the heat transfer equation can be re-written as:

ΔQ = ρ.A.dx.Lf

Lets equate the radiation equation and the modified heat transfer equation, we have:

ρ.A.dx.Lf = I(dt)eAcosθ

ρ.dx.Lf = I(dt)ecosθ    (Striking out the area)

Let's make dt the subject of formula,

dt = ρ.dx.Lf /I.e.cosθ

ρ = Density of ice, $9.2x10^{2} Kg/m^{3}$

Lf = $3.36x10^{5} J/Kg$

e = 0.050

θ = 32 deg. C

Now, let's substitute the terms:

$dt=\frac{(9.2x10^{2})(0.02)(3.36x10^{5} ) }{(1000)(0.050)(cos32)}$

$dt=14.45x10^{4} s = \frac{14.45x10^{4}}{3600} hr=40.14 hr$

Therefore, the time taken for the ice to completely melt is 40 hours (Two significant figures)