Consider a poor lost soul walking at 5 km/h on a hot day in the desert,...

Consider a poor lost soul walking at 5 km/h on a hot day in the desert,...

Consider a poor lost soul walking at 5 km/h on a hot day in the desert, wearing only a bathing suit. This person's skin temperature tends to rise due to four mechanisms: (i) energy is generated by metabolic reactions in the body at a rate of 300 W , and almost all of this energy is converted to heat that flows to the skin; (ii) heat is delivered to the skin by convection from the outside air at a rate...

Consider a person who is trying to keep cool on a hot summer day by turning...

Consider a person who is trying to keep cool on a hot summer day by turning a fan on and exposing his entire body to air flow. The air temperature is 40°C and the fan is blowing air at a velocity of 2 m/s. If the person is doing light work and generating sensible heat at a rate of 300 kJ/h, determine the average temperature of the outer surface (skin or clothing) of the person. The average human body can...

The average human metabolizes 2000 kcal/day. Some of this energy is converted into work, but the...

The average human metabolizes 2000 kcal/day. Some of this energy is converted into work, but the majority is wasted heat. With a skin area of 1.50 m2 , a skin temperature of 27.0o C, and an effective emissivity of e = 0.600, some of this wasted heat is released into the 20.0o C environment via radiation. The rest of the waste heat is removed by evaporating water, either as perspiration or from the lungs during breathing. At core body temperature...

Consider a person whose exposed surface area is 1.7 m2, emissivity is 0.9, and surface temperature...

Consider a person whose exposed surface area is 1.7 m2, emissivity is 0.9, and surface temperature is 32°C. Determine the total rate of heat loss from that person by radiation and convection in a large room having walls at a temperature of 18oC. The convective heat transfer coefficient is 5 W/m2.K

Consider an aluminum pin fin (k = 240 W/m·K) with a 2 mm by 2 mm...

Consider an aluminum pin fin (k = 240 W/m·K) with a 2 mm by 2 mm square cross-section and a length of 4 cm that is attached to a surface at 100o C. The fin is exposed to air at 25o C with a convection heat transfer coefficient of 20 W/m2 · o C. Determine the rate of heat transfer and the tip temperature of the fin for the following cases: (a) Convection from the fin tip. (b) Adiabatic tip...

Solar heating of a house is much more efficient if there is a way to store...

Solar heating of a house is much more efficient if there is a way to store the thermal energy collected during the day to warm the house at night. Suppose one solar-heated home utilizes a concrete slab of area 14 m2and 26 cm thick. Part A If the density of concrete is 2400 kg/m3, what is the mass of the slab? The slab is exposed to sunlight and absorbs energy at a rate of 1.5 ×107J/h for 10 h. If...

4.1A clothed or unclothed person feels comfortable when the skin temperature is about 33oC. Consider an...

4.1A clothed or unclothed person feels comfortable when the skin temperature is about 33oC. Consider an average man wearing summer clothes whose thermal resistance is 0.109 m2 ? oC/W. The man feels very comfortable while standing in a room maintained at 20oC. If this man were to stand in that room unclothed, determine the temperature at which the room must be maintained for him to feel thermally comfortable. Assume the latent heat loss from the person to remain the same....

Consider a large uranium plate of thickness 5 cm and thermal conductivity k = 28 W/m...

Consider a large uranium plate of thickness 5 cm and thermal conductivity k = 28 W/m K in which heat is generated uniformly at a constant rate of q˙ = 6 × 10^5 W/m^3 . One side of the plate is insulated while the other side is subjected to convection in an environment at 30◦C with a heat transfer coefficient of h = 60 W/m2 K. Considering six equally spaced nodes with a nodal spacing of 1 cm, (a) Sketch...

Thermal Storage Solar heating of a house is much more efficient if there is a way...

Thermal Storage Solar heating of a house is much more efficient if there is a way to store the thermal energy collected during the day to warm the house at night. Suppose one solar-heated home utilizes a concrete slab of area 12 m2 and 25 cm thick. Part A Part complete If the density of concrete is 2400 kg/m3, what is the mass of the slab? Express your answer to two significant figures and include appropriate units. 7200 kg SubmitPrevious...

A water drop slung onto a skillet with a temperature between 100°C and 200°C will remain...

A water drop slung onto a skillet with a temperature between 100°C and 200°C will remain a liquid for about 1 second. However, if the skillet is much hotter the drop can last several minutes. This is due to the Leidenfrost Effect, named after an early investigator (circa 1756). The longer lifetime is due to the support of a thin layer of air and water vapor that separates the drop from the metal (by a distance L, as shown in...