THERMODYNAMICS: ENG APPROACH LOOSELEAF
THERMODYNAMICS: ENG APPROACH LOOSELEAF
9th Edition
ISBN: 9781266084584
Author: CENGEL
Publisher: MCG
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Chapter 1.11, Problem 77P

Consider the system shown in Fig. 1–77. If a change of 0.7 kPa in the pressure of air causes the brine–mercury interface in the right column to drop by 5 mm in the brine level in the right column while the pressure in the brine pipe remains constant, determine the ratio of A2/A1.

Chapter 1.11, Problem 77P, Consider the system shown in Fig. 177. If a change of 0.7 kPa in the pressure of air causes the

Expert Solution & Answer
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To determine

The ratio of A2/A1 for U-tube manometer.

Answer to Problem 77P

The ratio of A2/A1 for U-tube manometer is 0.134_.

Explanation of Solution

Write the expression of pressure in U-tube manometer with before the pressure change of air.

PA1+ρwghw+ρHgghHg,1+ρbrghbr,1=PB (I)

Here, the pressure in area 1 is PA1, the density of water is ρw, the acceleration of gravity is g, the height of the water is hw, the density of mercury is ρHg, the height of the mercury at area 1 is hHg,1, the density of brine is ρbr, the height of the brine at area 1 is hbr,1, and the pressure at brine pipe is PB.

Write the expression of pressure in U-tube manometer with after the pressure change of air.

PA2+ρwghw+ρHgghHg,2+ρbrghbr,2=PB (II)

Here, the pressure in area 2 is PA2, the height of the mercury at area 2 is hHg,2, and the height of the brine at area 2 is hbr,2.

Simplify the Equation (I) and Equation (II).

PA1PA2+ρHggΔhHgρbrgΔhbr=0PA1PA2ρwg=SGHgΔhHgSGbrΔhbr (III)

Here, the specific gravity of mercury is SGHg, the specific gravity of brine is SGbr, the change in specific enthalpy for brine is Δhbr, and the change in specific enthalpy for mercury is ΔhHg.

Determine the change in specific enthalpy of mercury.

ΔhHg=ΔhHg,right+ΔhHg,rleft=Δhbr+ΔhbrA2/A1=Δhbr(1+A2/A1) (IV)

Here, the area 1 is A1 and the area 2 is A2.

Substitute Equation (IV) into Equation (III).

PA1PA2ρwg=SGHgΔhbr(1+A2/A1)SGbrΔhbr (V).

Conclusion:

Substitute 0.7kPa for PA1, 5mm for Δhbr, 9.81m/s2 for g, 1000kg/m3 for ρw, 13.56 for SGHg, and 1.1 for SGbr in Equation (V).

0.7kPa(0)(1000kg/m3)(9.81m/s2)=(13.56)(5mm)(1+A2/A1)(1.1×5mm)0.7kPa×(1000N/m21kPa)(1kg/ms21N/m2)(1000kg/m3)(9.81m/s2)=[(13.56)(5mm×(103m1mm))×(1+A2/A1)(1.1×5mm×(103m1mm))]0.071356m=[(0.0678m)×(1+A2/A1)(0.0055m)]A2/A1=0.13356

A2/A1=0.134

Thus, the ratio of A2/A1 for U-tube manometer is 0.134_.

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Chapter 1 Solutions

THERMODYNAMICS: ENG APPROACH LOOSELEAF

Ch. 1.11 - The value of the gravitational acceleration g...Ch. 1.11 - A 3-kg plastic tank that has a volume of 0.2 m3 is...Ch. 1.11 - A 2-kg rock is thrown upward with a force of 200 N...Ch. 1.11 - Solve Prob. 113 using appropriate software. 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How is it related to...Ch. 1.11 - What are the ordinary and absolute temperature...Ch. 1.11 - Consider an alcohol and a mercury thermometer that...Ch. 1.11 - Consider two dosed systems A and B. System A...Ch. 1.11 - Consider a system whose temperature is 18C....Ch. 1.11 - Steam enters a heat exchanger at 300 K. What is...Ch. 1.11 - The temperature of a system rises by 130C during a...Ch. 1.11 - The temperature of a system drops by 45F during a...Ch. 1.11 - The temperature of the lubricating oil in an...Ch. 1.11 - Heated air is at 150C. 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Using appropriate software,...Ch. 1.11 - The piston of a vertical piston-cylinder device...Ch. 1.11 - Both a gage and a manometer are attached to a gas...Ch. 1.11 - Reconsider Prob. 161. Using appropriate software,...Ch. 1.11 - A manometer containing oil ( = 850 kg/m3) is...Ch. 1.11 - A manometer is used to measure the air pressure in...Ch. 1.11 - A mercury manometer ( = 13.600 kg/m3) is connected...Ch. 1.11 - Repeat Prob. 165 for a differential mercury height...Ch. 1.11 - The pressure in a natural gas pipeline is measured...Ch. 1.11 - Repeat Prob. 167E by replacing air with oil with a...Ch. 1.11 - Blood pressure is usually measure by wrapping a...Ch. 1.11 - The maximum blood pressure in the upper arm of a...Ch. 1.11 - Consider a U-tube whose arms are open to the...Ch. 1.11 - Consider a double-fluid manometer attached to an...Ch. 1.11 - Calculate the absolute pressure. P1, of the...Ch. 1.11 - Consider the manometer in Fig. 173. If the...Ch. 1.11 - Consider the manometer in Fig. 173. 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If a change...Ch. 1.11 - The gage pressure of the air in the tank shown in...Ch. 1.11 - Repeat Prob. 178 for a gage pressure of 40 kPa.Ch. 1.11 - What is the value of the engineering software...Ch. 1.11 - Determine a positive real root of this equation...Ch. 1.11 - Solve this system of two equations with two...Ch. 1.11 - Solve this system of three equations with three...Ch. 1.11 - Solve this system of three equations with three...Ch. 1.11 - The reactive force developed by a jet engine to...Ch. 1.11 - The reactive force developed by a jet engine to...Ch. 1.11 - A man goes to a traditional market to buy a steak...Ch. 1.11 - What is the weight of a 1-kg substance in N, kN,...Ch. 1.11 - The pressure in a steam boiler is given to be 92...Ch. 1.11 - A hydraulic lift is to be used to lift a 1900-kg...Ch. 1.11 - The average atmosphere pressure on earth is...Ch. 1.11 - Hyperthermia of 5C (i.e., 5C rise above the normal...Ch. 1.11 - The boiling temperature of water decreases by...Ch. 1.11 - A house is losing heat at a rate of 1800 kJ/h per...Ch. 1.11 - The average body temperature of a person rises by...Ch. 1.11 - The average temperature of the atmosphere in the...Ch. 1.11 - A vertical, frictionless pistoncylinder device...Ch. 1.11 - A vertical pistoncylinder device contains a gas at...Ch. 1.11 - The force generated by a spring is given by F =...Ch. 1.11 - An air-conditioning system requires a 35-m-long...Ch. 1.11 - Balloons are often filled with helium gas because...Ch. 1.11 - Reconsider Prob. 1101. 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