(1a). Black body has emissivity value of 1, but in reality, the emissivity of real objects is less than 1. Why??(1b). The tungsten sphere of 250 mm radius is at a temperature of 35°C. If the power radiated by sphere is 89W, calculate its emissivity value?(1c).If the same sphere is enclosed in room whose walls are kept at -11°C, what is the net flow rate of energyout of the sphere in Watts (W)

The questions asked are based on thermal radiation.

(1a). Black body has emissivity value of 1, but in reality, the emissivity of real objects is less than 1. Why?? (1b). The tungsten sphere of 250 mm radius is at a temperature of 35°C. If the power radiated by sphere is 89 N, calculate its emissivity value? (1c).lf the same sphere is enclosed in room whose walls are kept at -11°C, what is the net flow rate of energy but of the sphere in Watts (W)

(1a). Black body has emissivity value of 1, but in reality, the emissivity of real objects is less than 1. Why?? (1b). The tungsten sphere of 250 mm radius is at a temperature of 35°C. If the power radiated by sphere is 89 N, calculate its emissivity value? (1c).lf the same sphere is enclosed in room whose walls are kept at -11°C, what is the net flow rate of energy but of the sphere in Watts (W)

College Physics

10th Edition

ISBN:9781285737027

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter11: Energy In Thermal Processes

Section: Chapter Questions

Problem 54AP: The surface area of an unclothed person is 1.50 m2, and his skin temperature is 33.0C. The person is...

See similar textbooks

Related questions

Q: 11) A brass rod is 69.5 cm long and an aluminum rod is 49.3 cm long when both rods are at an initial…

A: Formula for Linear thermal expansion is l = (coeff for linear expansion) * (temp change) * (length)…

Q: An ice cream cone has 476.9Cal. Assuming the T of your skin is 32.5C and the T of the air is 25.7C,…

A: Given Heat of the icecream cone = 476.9 cal 1 cal. = 4.18 kJ So, 476.9 cal = 1993.442 kJ…

Q: An air bubble at the bottom of a lake 34.5 m deep has a volume of 1.00 cm3.If the temperature at the…

A: We are authorized to answer one problem at a time, since you have not mentioned which one you are…

Q: 1) A wall is made up of four elements, as follows: ½” wood siding R = 1.0 ½” plywood sheathing…

A: You have uploaded the multiple questions, we will solve the first one. To get solved remaining…

Q: Two rooms, each a cube 4 m per side, share a 12-cm thick brick wall. Because of a number of 100-W…

Q: At what net rate does heat radiate from a 275-m2 black roof on a night when the roof’s temperature…

Q: At what net rate does heat radiate from a 275−m2 black roof on a night when the roof’s temperature…

Q: A cube of edge length 5.7 x 10-6 m, emissivity 0.74, and temperature -110°C floats in an environment…

A: Given: l=5.7*10-6 me = 0.74T = -110°C = 163 KTenv=-160=113 K

Q: (1b). The tungsten sphere of 220 mm radius is at a temperature of 43°C. If the power radiated by…

A: Given:-1b) The radius of the sphere r = 220 mm = 0.220m the temperature T = 43+273.15 = 316.15K The…

Q: On a cold winter day when the temperature is -20.0 ∘C, what is the amount of heat needed to warm to…

A: Given : Temperature on winter day, Tw = - 20 oC Body temperature, Tb = 37 oC Amount of air exchanged…

Q: - The increase in internal energy of 1kg of water at 100°C when it is converted into steam at the…

Q: 11. The emissivity e of object B is , that of object A, although both objects are identical in size…

A: emissivity of B 1/16 of emissivity of A

Q: Q.2/A thermocole cubical ice box of side 30 cm has a thickness of 5.0 cm. If 4.0 kg of ice is put in…

Q: 4. What is the rate of heat transfer by radiation, with an unclothed person standing in a dark room…

A: Given, Ambient Temperature =24°C Skin temperature =32°C Surface Area =1.6 m2. Emissivity of skin…

Q: Suppose a 500-mL beaker is filled to the brim with ethyl alcohol at a temperature of 5.00°C. You may…

A: Given Data: The volume of a beaker is, V1=500 mL The initial temperature is, T1=5°C The final…

Q: Hot air at 80°C is blown over a 2-m * 4-m flat surface at 30°C. If the average convection heat…

A: The heat transfer rate is given by,

Q: I need help with both questions please

Q: A surface of area 0.5 m2, emissivity 0.8, and temperature 150°C is placed in a large, evacuated…

Q: An 800-W iron is left on the iron board with its base exposed to the air at 20°C. The convection…

Q: Two concrete spans of a 180 m long bridge are placed end to end so that no room is allowed for…

A: Given: Length of bridge = 180mLength of one span Li=90mincrease in temperature ∆T = 20°Cα = 1.2*10-5…

Q: Determine the rate of energy transfer by radiation of a sphere of radius 7 cm at a temperature of…

A: Given: Emissivity (e) = 0.9 Difference in temperature (T) = 30.5 - 23.4…

Q: Among the highest and lowest natural air temperatures claimed are 136∘F in the Libyan desert and…

Q: An incandescent light bulb has a tungsten filament that is heated to a temperature of 3.00 x103 K…

A: According to Stefan-Boltzman's law, the total power radiated is given by, P = A σ eT4 where, A is…

Q: 20.** Objects A and B have the same size and shape with emissivity's ea and eB and temperature TA…

Q: A tungsten sphere ( e=0.35) of radius 22cm is at temperature of 25°C . i). If the sphere is…

Q: What maximum power can be radiated by a 10 cm -diameter solid lead sphere? Assume an emissivity of…

A: Diameter of sphere = 10 cm = 0.10 m Emissivity(e)= 1

Q: The height of the Washington Monument is measured to be 170 m on a day when the temperature is 35,…

Q: Dr. Lussier enjoys a bath after a long day. After filling his tub with exactly 190.5 Lof hot water,…

A: Given: The volume of the water is 190.5 L. The initial temperature of the water is 61.1o. The…

Q: Train tracks are composed of 10 m segments of steel rails. If the temperature outside is 30°C on…

Q: A simple solar collector is built by placing a 5-cmdiameter clear plastic tube around a garden hose…

Q: A furnace is shaped like a long equilateral-triangularduct where the width of each side is 2 m. Heat…

Q: Q25 2) A spherical infrared heater of radius 5.8 cm and an emissivity of 0.79 radiates 0.56 kW of…

A: Stefan Boltzmann law: The amount of power radiated from an area A of a body at absolute…

Q: An aluminum cylinder can of diameter 20 cm is 3 mm thick at the bottom. It contains water at 60…

A: Given data The diameter of the aluminum can is d = 20 cm The thickness at the bottom is t = 3 mm =…

Q: Object 2 has twice the emissivity of object 1, though they havethe same size and shape. If the two…

Q: A pair of eyeglass frames are made of epoxy plastic (coefficient of linear expansion = 1.30 × 10–4…

Q: (1a). Black body has emissivity value of 1, but in reality, the emissivity of real objects is less…

Q: A pair of eyeglass frames is made of epoxy plastic. At room temperature (20.0°C), the frames have…

A: Equation for linear expansion is,

Q: Two rooms, each a cube 4.1 m per side, share a 13-cm-thick brick wall. Because of a number of 100-W…

A: Here given the two rooms each are a cube of side 4.1 m. The common wall with thickness 13 cm. The…

Q: The outer surface of a spacecraft in space has an emissivity of 0.6 and an absorptivity of 0.2 for…

A: The expression for the heat emitted from the surface temperature,

Q: In the summer of 1958 in St. Petersburg, Florida, a new sidewalk was poured near the childhood home…

A: (a) compressive stress

Q: (II) How long does it take the Sun to melt a block of ice at0°C with a flat horizontal area 1.0m2…

A: Formula of Insolation energy is as follows: I=ScosZ=EAt…

Q: Suppose that you intercept 5.0 * 10-3 of the energy radiated by a hot sphere that has a radius of…

Q: On New Year’s Day, several human “polar bears” prepare for their annual dip into the icy waters of…

A: Given data A=1.15 m2ε=0.9Ts=303 KTR=293 KT∞=273 K

Concept explainers

Energy transfer

The flow of energy from one region to another region is referred to as energy transfer. Since energy is quantitative; it must be transferred to a body or a material to work or to heat the system.

Molar Specific Heat

Heat capacity is the amount of heat energy absorbed or released by a chemical substance per the change in temperature of that substance. The change in heat is also called enthalpy. The SI unit of heat capacity is Joules per Kelvin, which is (J K-1)

Thermal Properties of Matter

Thermal energy is described as one of the form of heat energy which flows from one body of higher temperature to the other with the lower temperature when these two bodies are placed in contact to each other. Heat is described as the form of energy which is transferred between the two systems or in between the systems and their surrounding by the virtue of difference in temperature. Calorimetry is that branch of science which helps in measuring the changes which are taking place in the heat energy of a given body.

Question

(1a). Black body has emissivity value of 1, but in reality, the emissivity of real objects is less than 1. Why??
(1b). The tungsten sphere of 250 mm radius is at a temperature of 35°C. If the power radiated by sphere is 89
W, calculate its emissivity value?
(1c).If the same sphere is enclosed in room whose walls are kept at -11°C, what is the net flow rate of energy
out of the sphere in Watts (W)

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1

Step 2

Step 3

Step 4

Trending now

This is a popular solution!

Step by step

Solved in 4 steps with 2 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, physics and related others by exploring similar questions and additional content below.

Similar questions

One way to cool a gas is to let it expand. When a certain gas under a pressure of 5.00 106 Ha at 25.0C is allowed to expand to 3.00 times its original volume, its final pressure is 1.07 106 Pa. (a) What is the initial temperature of the gas in Kelvin? (b) What is the final temperature of the system? (See Section 10.4.)
What mass of water at 25.0C must be allowed to conic to thermal equilibrium with a 1.85-kg cube of aluminum initially at 1.50 102C to lower the temperature of the aluminum to 65.0C? Assume any water turned to steam subsequently recondenses.
The surface area of an unclothed person is 1.50 m2, and his skin temperature is 33.0C. The person is located in a dark room with a temperature of 20.0C, and the emissivity of the skin is e = 0.95. (a) At what rate is energy radiated by the body? (b) What is the significance of the sign of your answer?
(1a). Black body has emissivity value of 1, but in reality, the emissivity of real objects is less than 1. Why?e (1b). The tungsten sphere of 240 mm radius is at a temperature of 25°C. If the power radiated by sphere is 91 W, calculate its emissivity value? (1c).If the same sphere is enclosed in room whose walls are kept at -7°C, what is the net flow rate of energy out of the sphere in Watts (W)
(1a). Black body has emissivity value of 1, but in reality, the emissivity of real objects is less than 1. Why?? (1b). The tungsten sphere of 220 mm radius is at a temperature of 29°C. If the power radiated by sphere is 105 W, calculate its emissivity value? (1c).If the same sphere is enclosed in room whose walls are kept at -9°C, what is the net flow rate of energy out of the sphere in Watts (W)
(1a). Black body has emissivity value of 1, but in reality, the emissivity of real objects is less than 1. Why?? (1.5 marks) (1b). The tungsten sphere of 250 mm radius is at a temperature of 31°C . If the power radiated by sphere is 107 W, calculate its emissivity value? (2marks) (1c).lf the same sphere is enclosed in room whose walls are kept at -11°C, what is the net flow rate of energy out of the sphere in Watts (W)
The next four questions use this description. Our Sun has a peak emission wavelength of about 500 nm and a radius of about 700,000 km. Your dark-adapted eye has a pupil diameter of about 7 mm and can detect light intensity down to about 1.5 x 10-11 W/m². Assume the emissivity of the Sun is equal to 1. First, given these numbers, what is the surface temperature of the Sun in Kelvin to 3 significant digits? 5,796
The next four questions use this description. Our Sun has a peak emission wavelength of about 500 nm and a radius of about 700,000 km. Your dark-adapted eye has a pupil diameter of about 7 mm and can detect light intensity down to about 1.5 x 10-11 W/m2. Assume the emissivity of the Sun is equal to 1. First, given these numbers, what is the surface temperature of the Sun in Kelvin to 3 significant digits? What is the power output of the Sun in moles of watts? (in other words, take the number of watts and divide it by Avogadro's number) Assuming that all of the Sun's power is given off as 500 nm photons*, how many photons are given off by the Sun every second? Report your answer to the nearest power of 10 (e.g. if you got 7 x 1024, give your answer as 25).
The robot HooRU is lost in space, floating around aimlessly, and radiates heat into the depths of the cosmos at the rate of 10.7 W. H0ORU's surface area is 1.67 m? and the emissivity of its surface is 0.227. Ignoring the radiation that HooRU absorbs from the cold universe, what is HooRU's temperature T? T = K
A rectangular window in a home has a length of 1.5 m and a height of 0.80 m. If the window allows heat to escape from the home at a rate of 2,000 watts, how thick must the window be if the inside temperature of the home is 220 C and the outside temperature is 3.00C? (Assume that the coefficient of thermal conduction of glass is 0.80 W/mK.) a. 7.1 mm b. 124 mm c. 9.1 mm d. 8.1 mm e. 11 mm
Q10: In a nuclear reactor, 1-cm-diameter cylindrical uranium rods cooled by water from outside serve as the fuel. Heat is generated uniformly in the rods (k = 29.5 W/m - °C) at a rate of 7 x10 w/m?. If the outer surface temperature of rods is 175°C, determine the temperature at their center. Q11: Consider a homogeneous spherical piece of radioactive material of radius ro =0.04 m that is generating heat at a constant rate of g'= 4 x 10' w/m. The heat generated is dissipated to the environment steadily. The outer surface of the sphere is maintained at a uniform temperature of 80°C and the thermal conductivity of the sphere is k = 15 W/m "C. Assuming steady one-dimensional heat transfer, (a) express the differential equation and the boundary conditions for heat conduction through the sphere, (b) obtain a relation for the variation of temperature in the sphere by solving the differential equation, and (c) determine the temperature at the center of the sphere. Q12: Consider a large…
Judging from its unit W/m·K, can we define thermal conductivity of a material as the rate of heat transfer through the material per unit thickness per unit temperature difference? Explain.