A 3.78 mm copper cube (k = 392 W/m·°C) has a temperature difference of 11.4°C between...

1.What is the temperature of a 3.25 mm cube (e=0.273) that radiates 56.4 W? 2.Water (c=4.184...

1.What is the temperature of a 3.25 mm cube (e=0.273) that radiates 56.4 W? 2.Water (c=4.184 J/g°C) flows through an engine that produces 43.9 W of waste heat. If the water temperature increases by 21.8°C, what is the mass flow rate (m/t)? 3.A 3.78 mm copper cube (k = 392 W/m·°C) has a temperature difference of 11.4°C between opposite sides. How quickly does it conduct?

A 7-kg cube of copper (cCu = 386 J/kg-K) has a temperature of 750 K. It...

A 7-kg cube of copper (cCu = 386 J/kg-K) has a temperature of 750 K. It is dropped into a bucket containing 5.5 kg of water (cwater = 4186 J/kg-K) with an initial temperature of 293 K. 1) What is the final temperature of the water-and-cube system? K 2) If the temperature of the copper was instead 1350 K, it would cause the water to boil. How much liquid water (latent heat of vaporization = 2.26

A house has a composite wall of wood (exterior) (k = 0.12 W m-1 K -1...

A house has a composite wall of wood (exterior) (k = 0.12 W m-1 K -1 , 20 mm thick), fibreglass insulation (k = 0.045 W m-1 K -1 , 70 mm thick) and plasterboard (interior) (k = 0.25 W m-1 K -1 , 10 mm thick). Determine the total heat loss through the wall when the inside temperature is 20 °C, the outside temperature is -10 °C, the inside heat transfer coefficient is 15 W m-2 K -1 ,...

A 25 mm diameter egg roll (k = 1 W/m degree Celsius) is roasted with the...

A 25 mm diameter egg roll (k = 1 W/m degree Celsius) is roasted with the help of microwave heating. For good quality roasting, it is desired that temperature at the center of roll is maintained at 100 degree Celsius when the surrounding temperature is 25 degree Celsius. What should be the heating capacity in K W/m of the microwave if the heat transfer coefficient on the surface of egg roll is 20 W/m? degree Celsius? a) 113.31 k W/m...

A 40-mm-thick plain wall of thermal conductivity 0.04 W/m-K and of temperature 304 K is exposed...

A 40-mm-thick plain wall of thermal conductivity 0.04 W/m-K and of temperature 304 K is exposed to both cold fluid and surroundings both at 298 K. The cold fluid and wall provide that the heat transfer coefficient is 10.5 W/m2-K and the emissivity of the wall is 0.83. Given that the area of the wall is 1.5m2 If the total heat transferred is 140.6987W, find the temperature of the other side of the plain wall

A stainless-steel fin (k = 16 W/m. °C) has a length of 15 cm and a...

A stainless-steel fin (k = 16 W/m. °C) has a length of 15 cm and a square cross section 12.5 by 12.5 mm attached to a wall maintained at 250 °C. The heat-transfer coefficient is 40 W/m. °C, and the environment temperature is 90 °C. Calculate the percentage increase in heat transfer after attaching the fin.

A 0.6 m thick plate's temperature distribution is being estimated using finite difference methods. Initial temperature...

A 0.6 m thick plate's temperature distribution is being estimated using finite difference methods. Initial temperature distribution is uniform at 30 C. A 70 C medium submerges the plate on both sides. The medum has a heat transfer coeffficient (h) = 50 W/m2K. The thermal diffusivity of the plate material is 2.7 x 10-4 m2/s., and the thermal conductivity (k) = 0.34 W/m K. What are the proper values of M, N, Δx and Δt used in the finite difference...

A slab of meat 25.4 mm thick originally at a uniform temperature of 10°C is to...

A slab of meat 25.4 mm thick originally at a uniform temperature of 10°C is to be cooked from both sides until the center reach 121°C in an oven at 177°C. The convection coefficient can be assumed constant at 25.6 W/m2.K. Neglect any latent heat changes and calculate the time required. The thermal conductivity is 0.69 W/m².K and the thermal diffusivity is 5.85x10-4 m²/h.

A pin fin, fabricated from an aluminum alloy (k = 185 W/m K), has a diameter...

A pin fin, fabricated from an aluminum alloy (k = 185 W/m K), has a diameter of D = 3 mm and a length of L = 15 mm. Its base temperature is Tb = 100°C, and it is exposed to a fluid for which T∞ = 20°C and h = 50 W/m2 K. Provide a sketch and state your assumptions (1 point) Use Table 3.5 in the book (grading is based on the use of that particular table) to...

A 3.00 m long copper wire has a 1.20 m long section with a 1.60 mm...

A 3.00 m long copper wire has a 1.20 m long section with a 1.60 mm diameter and a 1.80 m long section with a 0.80 mm diameter. The electric current is 2.5 mA (milli Amps) in the 1.60 mm diameter section. The electrical resistivity of copper is 1.68 x 10^-8 Ω m. a) (10pts) What is the current density in the 1.60 mm diameter section? b) (10pts) What is the magnitude of the electric field in N / C...