Two bars are placed between plates whose tempera-tures are Thot and Testa (see the drawing). The thermalconductivity of bar 1 is six times that of bar 2 (k, = 6kg).but bar I has only one-third the cross-sectional area(A,A). Ignore any heat loss through the sides ofthe bars. What can you conclude about the amountsof heat Q, and Q₂, respectively, that bar 1 and bar 2conduct in a given amount of time? (a) Q₁ = 0;(b) Q₁ Q₂ (c) Q₁ = 20; (d) Q₁ = 40₂(e) Q₁ = Q:ThatBar 1Bar 25- If an object is not in thermal equilibrium with surroundings (they have different temperatures).a) the net heat and net power emitted by the object is zero.b) the net heat emitted by the object is zero but the net power emitted is not zero.c) the net power emitted by the object is zero but the net heat emitted is not zero.d) the net heat and net power emitted by the object is not zero.

Since you have asked multiple question, we will solve the first question for you. If youwant any…

Two bars are placed between plates whose tempera- tures are Thot and Testa (see the drawing). The thermal conductivity of bar 1 is six times that of bar 2 (k, = 6kg). but bar 1 has only one-third the cross-sectional area (A, A₂). Ignore any heat loss through the sides of the bars. What can you conclude about the amounts of heat Q, and Q₂, respectively, that bar 1 and bar 2 conduct in a given amount of time? (a) Q₁ = 10₂ (b) Q₁ Q₂ (c) Q₁ = 20: (d) Q, 40₂ (e) Q₁ = Q₂ = **** That HR Bar 1 Bar 2

Two bars are placed between plates whose tempera- tures are Thot and Testa (see the drawing). The thermal conductivity of bar 1 is six times that of bar 2 (k, = 6kg). but bar 1 has only one-third the cross-sectional area (A, A₂). Ignore any heat loss through the sides of the bars. What can you conclude about the amounts of heat Q, and Q₂, respectively, that bar 1 and bar 2 conduct in a given amount of time? (a) Q₁ = 10₂ (b) Q₁ Q₂ (c) Q₁ = 20: (d) Q, 40₂ (e) Q₁ = Q₂ = **** That HR Bar 1 Bar 2

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

See similar textbooks

Related questions

Q: A copper bar of thermal conductivity 401 W/(m·K) has one end at 114°C and the other end at 24.0°C.…

Q: A long rod, insulated to prevent heat loss along its sides, is in perfect thermal contact with…

Q: Jane's surface area is approximately 1.63 m2 . At what rate H is heat released from her body when…

Q: I have a 730 mm thick concrete brick table top with an area of 10,000,000 mm^2 and a 0.750 cm thick…

A: Concept used: Rate of thermal conductivity is directly proportional to area of material ,…

Q: Consider two different construction materials with the following R values: R = 2R and R = R. If the…

A: From the expression of the R-value, determine the coefficient of thermal conductivity of both the…

Q: A cylindrical bar of length L and radius R (L>>R) whose side walls are thermally insulated supports…

Q: A window measures 1.5 m by 0.2 m and the single pane of glass is 0.3 cm thick. The outside…

Q: At the bottom of an old mercury-in-glass thermometer is a 54-mm³ reservoir filled with mercury. When…

Q: The average thermal conductivity of the walls (including windows) and roof of a house in the figure…

A: The area of the side walls can be written as A1=2ls·hA1=210.0 m5.00 mA1=100 m2…

Q: Two bars, A and B, each of length 2.3 m and cross-sectional area 1.7 m2, are placed end to end as…

A: Write the given values with the suitable variables. L=2.3 mA=1.7 m2T1=373 KT2=273 KkA=439…

Q: A closed box is filled with dry ice at a temperature of -77.6 °C, while the outside temperature is…

Q: Two metal rods, one silver and the other copper, are both attached to a steam chamber as shown in…

Q: One end of an insulated metal rod is maintained at 100.0°C,and the other end is maintained at 0.00°C…

A: Given: The temperature of hot metal is Th=100.0∘C. The temperature of cold metal is Tc=0.00∘C. The…

Q: One end of a uniform rod is maitained at 150C and the other end is in contact with an ice water at…

Q: A copper rod has a length of 1.5m1.5m and a cross-sectional area of 4.0×10−4m24.0×10−4m2. One end…

Q: Q1 /a piece of copper whose length is 10 cm and its cross-sectional area 6 cm. Fix one end of it to…

Q: A copper and aluminum rod with the same length and cross-sectional area is arranged as Figure below.…

A: The rate of heat conduction is given by Qt=kAT1-T2l To maintain same temperature at the joint, the…

Q: An electronics device generates 36.8 W of heat energy during normal operation. The heat is…

A: The equation for convection of between a solid surface and fluid can be expressed as: q=h×A×∆T where…

Q: A copper bar of thermal conductivity 401 W/(m·K) has one end at 114°C and the other end at 24.0°C.…

Q: The thermal conductivity of a sheet of rigid, extruded insulation is reported to be k = 0.029 W/m.…

A: We have given k = 0.029 W/m.k ∆T= T1 - T2= 10°c Thickness of the sheet ∆x= 20 mm ∆x= 20/1000 ∆x=…

Q: The average thermal conductivity of the walls (including windows) and roof of a house in the figure…

A: Given: The thermal conductivity of walls is k=4.8×10-4 kW/m·∘C. The thickness of the walls is…

Q: In a particular country, the separation between adjacent train rails must be 2 cm so that they can…

A: see belowExplanation:Concepts a) b) Thank

Q: Calculate the rate of heat conduction through house walls that are 17.2 cm thick and that have an…

A: Write the given values with the suitable variables. t=17.2 cm=0.172 mA=182 m2T1=15.56 °CT2=3.39 °C…

Q: A metal plate 4.00 mm thick has a temperature difference of 32.0 °C between its faces. It transmits…

A: The thermal conductivity of the metal is,

Q: A metal rod of length 30 cm and radius 1 cm is cov- ered with an insulating material. One end of the…

Q: A closed box is filled with dry ice at a temperature of -88.3 oC, while the outside temperature is…

A: The rate of heat conduction is given by

Q: The figure shows the cross section of a wall made of three layers. The thicknesses of the layers are…

Q: and the length of the copper section is 0.800 mm. Each segment has cross-sectional area 0.00700…

Q: At the bottom of an old mercury-in-glass thermometer is a 42-mm3 reservoir filled with mercury. When…

Q: The tube in a heat exchanger has a 2-in inner diameter and a 3-in outer diameter. The thermal…

Q: A hot steel plate with a surface area of 2.47 m2 and a constant surface temperature of 161°C is…

Q: A wood slab with a thickness of 0.05 m is subjected to a heat flux of 40 W/m2. The left and right…

A: Given that,Thickness : d = 0.05 (m)Heat flux : H = 40 (W/m2)T = 40°CT' = 20°CHere we need to find…

Q: What is the rate of heat transfer in J/s through the body's skin and the fat layer just beneath its…

A: GivenWhat is the rate of heat transfer in J/s through the body's skin and the fat layer just beneath…

Q: A cubical piece of heat-shield-tile from the space shuttle measures 0.19 m on a side and has a…

Q: Rods of copper, brass, and steel are welded together to form a Y-shaped figure. The cross-sectional…

A: Given data: Area of copper = brass = steel = 2×10-4m2 Temperature of copper, T cu= 100°C…

Q: Derive the following equation for the steady-state rate of heat transfer via conduction across a…

Q: At the bottom of an old mercury-in-glass thermometer is a 37-mm3 reservoir filled with mercury. When…

Q: An electronics device generates 31.7 W of heat energy during normal operation. The heat is…

A: The equation for convection of between a solid surface and fluid can be expressed as: q = hAdT =…

Q: Heat transfers by conduction through a glass window, connecting a 22 degree Celsius room to a 36…

A: Given θ1=22o celciusθ2=36o celciusArea A=0.75m^2thickness of thr glass d=0.5cm=0.005mthermal…

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

Two bars are placed between plates whose tempera-
tures are Thot and Testa (see the drawing). The thermal
conductivity of bar 1 is six times that of bar 2 (k, = 6kg).
but bar I has only one-third the cross-sectional area
(A,A). Ignore any heat loss through the sides of
the bars. What can you conclude about the amounts
of heat Q, and Q₂, respectively, that bar 1 and bar 2
conduct in a given amount of time? (a) Q₁ = 0;
(b) Q₁ Q₂ (c) Q₁ = 20; (d) Q₁ = 40₂
(e) Q₁ = Q:
That
Bar 1
Bar 2
5- If an object is not in thermal equilibrium with surroundings (they have different temperatures).
a) the net heat and net power emitted by the object is zero.
b) the net heat emitted by the object is zero but the net power emitted is not zero.
c) the net power emitted by the object is zero but the net heat emitted is not zero.
d) the net heat and net power emitted by the object is not zero.

Expert Solution

This question has been solved!

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

SEE SOLUTION Check out a sample Q&A here

Step 1: Message regarding multiple questions.

VIEW

Step 2: Given data

VIEW

Step 3: Determining the expression for heat conduction due to bar 1 and bar 2.

VIEW

Step 4: Calculation for relation between Q1 and Q2.

VIEW

Solution

VIEW

Step by step

Solved in 5 steps with 19 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

Two bars, A and B, each of length 2.0 m and cross sectional area 1.0 m2, are placed end to end as shown in the figure. The thermal conductivities of the bars are kA = 439 J/(s × m × K) and kB = 887 J/(s × m × K), respectively. The left end of bar A is maintained at 373 K while the right end of B is maintained at 273 K. Which one of the following statements is true concerning the above situation? For a given time t, the amount of heat transferred through bar A is the same as that through B. For a given time t, the amount of heat transferred through bar A is smaller than that through B. For a given time t, the amount of heat transferred through bar A is less than that through B. The time for a quantity of heat Q to pass through bar A is less than that for B. Time is not a factor in determining the quantity of heat conducted through these bars.
An electric kitchen range has a total wall area of 1.40 m2 and is insulated with a layer of fiberglass 4.0 cm thick. The inside surface of the fiberglass has a temperature of 175 degrees C and its outside surface is at 35 degrees C. The fiberglass has a thermal conductivity of 0.040 W/(m*K). What is the heat current through the insulation, assuming it may be treated as a flat slab with an area of 1.40 m2? What electric-power input to the heating element is required to maintain this temperature?
Question t of 4 Question 1 A 101 cm long aluminum rod (thermal conductivity = 205 W/m-K) has a cross-section area of 2 cm. Ifr one end is kept in a steam bath and the other end in an ice-water mixture, what is the quantity of heat (in Joules) conducted by the rod in 4 days? Input only the numerical value of the answer. A Moving to another question will save this response.
A homeowner is unhappy with her heating costs. One wall of her house is 4 meters tall and 8 meters wide and has no windows, and it is made of brick and mortar with a thermal conductivity of 1.0 W m K . It is 40 cm thick. The house is heated to a temperature of 20 ◦C inside. (a) What is the rate of heat loss through the wall on a day when it is 0◦C outside? (b) A layer of rock mineral wool, which has a thermal conductivity of 0.032 W m K is to be installed on the interior surface of the brick wall. How thick should the layer be to lower the rate of heat transfer through this wall to half its original value? (c) If the rock mineral wool is instead installed on the outer surface, is the thickness required the same?
An electric kitchen range has a total wall area of 1.40 m2and is insulated with a layer of fiberglass 4.00 cm thick. The insidesurface of the fiberglass has a temperature of 175°C, and its outsidesurface is at 35.0°C. The fiberglass has a thermal conductivity of0.040 W /m . K. (a) What is the heat current through the insulation,assuming it may be treated as a flat slab with an area of 1.40 m2?(b) What electric-power input to the heating element is required tomaintain this temperature?
WITH THE CONCEPT OF HEAT TRANSFER, ANSWER THE FOLLOWING AND SHOW THE COMPLETE SOLUTION: A 10.0-cm long steel rod is welded end to end to a 20.0-cm long copper rod of the same cross-sectional area. The thermal conductivities of steel and copper are 50.2 W/m·K and 385 W/m·K, respectively. The steel end is kept at 100°C while the copper end is kept at 0°C. What is the steady-state temperature at the interface connecting the two rods?
A hot steel plate with a surface area of 2.17 m2 and a constant surface temperature of 165°C is exposed to ambient air at 24°C. If the convection heat transfer coefficient is 15.4 W/m2· K, what is the rate of heat transfer (in W) from the plate to the air [round your final answer to zero decimal places]?
How much heat is conducted in one hour through an iron plate 2.0 cm thick and 100 cm2 in area, the temperature of the two sides being kept at 0 and 20°C? COMPLETE FBD SOLUTION AND REQUIREMENTS PS. THIS IS A HEAT TRANSFER PROBLEM
A rod length l with thermally insulated lateral surface is made of a material whose thermal conductivity varies as K=α sin (ln T), where α is a constant. The ends of the rod are kept at temperatures T1 and T2. Find the temperature T(x), where x is the distance from end whose temperature is T1. Find the heat flowing per second per unit cross-sectional area. Solve with complete and detailed solution.
james investigated heat conduction in copper and plastic to find out which is a better insulator.He used Vaseline to stick a drawing pin to the of a bar made of copper and bar made of plastic.Each bar is 10cm long dameter of 1cm.James held the ends without the drawing pin over a Bunsen burner flame with a pair of tongs.He recored how long it took for each drawing pin to drop. Which variable was measured and which instrument is suitable for measuring the variables you mentioned. Which variable was changed. Tell us how James could tell from his results which substance is the better insulator.
The pipe 8 m long has an inner radius of 70 mm, an outer radius of 80 mm, and is made of stainless steel (k = 15 W / [m ° C]). The inner surface temperature is maintained at 180 ° C, and the outer surface is 30 ° C. At constant conditions and there is no heat generation from the pipe, calculate the heat transfer rate that occurs in the pipe wall. = watts
Question 3. (a) Double-pane glass window is an example of using multi-layers of thermally conducting material. Derive an expression for the heat flow P per unit area at steady state through three sheets of material, two of which are of the same material (conductivity k1, thickness L₁). The third sheet (with conductivity k2, thickness L₂) is sandwiched between the other two, in terms of the termperatures T₁ and T4 on the outer surfaces. (b) Determine the current in each resistor and the voltage difference between points X and Y in the circuit. 12 13 V Y 3 Ω, 6 V 13 8 V (+ h 10 Ω X