Answer:
(a) for 43.75 mm rod, the temperature is 121.97 ⁰C
(b) for 87.50 mm rod, the temperature is 80.17 ⁰C
(c) for 175.00 mm rod, the temperature is 53.46 ⁰C
Explanation:
Given;
L = 175 mm = 0.175 m
D = 5mm = 0.005
[tex]T_b[/tex] = 200°C
T∞ = 20°C
Heat transfer coefficient h = 30 W/m²·K
Thermal conductivity of brass K = 133 W/m.°C
[tex]T_X = \frac{T-T_{infinity}}{T_b -T_{infinity}}[/tex]
where;
T is the temperature of the rod at different casting distance,
[tex]T_X =\frac{Cosh[m(L-X)]+(h/mk)Sinh[m(L-X)]}{Cosh(mL) +(h/mk)Sinh(mL)}[/tex]
[tex]m = \sqrt{\frac{4h}{kD} } = \sqrt{\frac{4*30}{133*0.005} } = 13.43 m^{-1}\\\\h/mk =\frac{30}{13.43*133} =0.0168[/tex]
Part (a) for 43.75 mm rod
[tex]T_{43.75} =\frac{Cosh[13.43(0.175-0.04375)] +(0.0168)Sinh[13.43(0.175-0.04375)]}{Cosh(13.43*0.175)+(0.0168)Sinh(13.43*0.175)} \\\\T_{43.75} = \frac{2.9999+0.0475}{5.2918+0.0875} = 0.5665[/tex]
[tex]0.5665 = \frac{T -20}{200-20} \\\\T =121.97^oC[/tex]
Part (b) for 87.50 mm rod
[tex]T_{87.5} =\frac{Cosh[13.43(0.175-0.0875)] +(0.0168)Sinh[13.43(0.175-0.0875)]}{Cosh(13.43*0.175)+(0.0168)Sinh(13.43*0.175)} \\\\T_{87.5} = \frac{1.7735+0.0246}{5.2918+0.0875} = 0.3343[/tex]
[tex]0.3343 = \frac{T -20}{200-20} \\\\T =80.17^oC[/tex]
Part (c) for 175.00 mm rod
[tex]T_{175} =\frac{Cosh[13.43(0.175-0.175)] +(0.0168)Sinh[13.43(0.175-0.175)]}{Cosh(13.43*0.175)+(0.0168)Sinh(13.43*0.175)} \\\\T_{175} = \frac{1+0}{5.2918+0.0875} = 0.1859[/tex]
[tex]0.1859 = \frac{T -20}{200-20} \\\\T =53.46^oC[/tex]
