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HISTORY OF CIVIL ENGINEERING, Cheat Sheet of Civil Engineering

University of Cebu (UC)Civil Engineering

HISTORY OF CIVIL ENGINEER(ING)

Typology: Cheat Sheet

2023/2024

Uploaded on 11/11/2024

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1
Ideal Gas
Ideal Gas, defined
1. is a hypothetical gas that obeys the gas laws perfectly at all temperatures and
pressures. (hypothetical means theoretical, imaginary or assumed).
2. is ideal only in the sense that it conforms to the simple perfect gas laws.
Equation of State
PV = nRT where: P = absolute pressure R = universal gas constant
V = volume T = absolute temperature (K, deg R)
n = number of moles
Derived from PV = nRT
1. Mass
=PVM
mRT
n = m/M
2. Density
=PM
RT
3. Specific Volume
=RT
PM
Standard Temperature and Pressure (STP)
standard temperature =
= = =
o o o
273 K 492 R 0 C 32 F
standard pressure = 1 atm = 14.7 psi = 760 mm Hg = 760 torr = 101.325 kPa
= 29.92 in Hg
Molar volume of any ideal gas at STP
V = 22.4 L/mole
Universal Gas Constant
R = 0 .0821
L atm
gmol K
= 8.31
J
gmol K
= 0.73
3
o
ft atm
lbmol R
n = m/M
R = PV/nT 1 kgmol = 1000 gmol = 2.2 lbmol
pf3
pf4

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Ideal Gas

Ideal Gas, defined

  1. is a hypothetical gas that obeys the gas laws perfectly at all temperatures and pressures. (hypothetical means theoretical, imaginary or assumed).
  2. is ideal only in the sense that it conforms to the simple perfect gas laws.

Equation of State PV = nRT where: P = absolute pressure R = universal gas constant V = volume T = absolute temperature (K, deg R) n = number of moles

Derived from PV = nRT

  1. Mass m = PVM RT

n = m/M

  1. Density  = PM RT
  2. Specific Volume  = RT PM

Standard Temperature and Pressure (STP) standard temperature = 273 K = 492 Ro^ = 0 Co^ =32 Fo standard pressure = 1 atm = 14.7 psi = 760 mm Hg = 760 torr = 101.325 kPa = 29.92 in Hg

Molar volume of any ideal gas at STP V = 22.4 L/mole

Universal Gas Constant

R = 0 .0821  

L atm gmol K

J

gmol K

3 o

ft atm lbmol R

n = m/M

R = PV/nT 1 kgmol = 1000 gmol = 2.2 lbmol

Combined Gas Law BT CP GV PV = nRT PV/T = nR nR = constant n 1 = n 2

(^1 1) = 2 2 1 2

P V P V

T T

subscript 1 = initial condition subscript 2 = final condition

Boyle’s Law nRT = constant P V 1 1 =P V 2 2

Charles’ Law P = constant = nR (^1) = 2 1 2

V V

T T

Gay-Lussac’s Law V = constant = nR (^1) = 2 1 2

P P

T T

Example 1 A sample of gas occupies a volume of 225 ml at a pressure of 720 mm Hg and a temperature of 20oC. Calculate the new pressure if the volume is increased to 350 ml at constant temperature.

2 2

720 225 P 350

P 463 mm Hg

Example 2 A sample of gas occupies a volume of 275 ml at 20oC and 1 atm pressure. Calculate the volume if the volume of the gas at 0^0 C and 1 atm pressure.

2

2

275 V

V 256 ml

An ideal gas at 760 mm Hg (absolute) is cooled from 40 deg F to 80 deg F. What is the new absolute pressure of this gas in mm Hg?

10 points 1520

380 none of the above What is the volume of a 1.25-mol gas at 1 atm absolute and 20 deg C? Assume the gas behaves like an ideal gas. R = 0.0821 L-atm/mol-K.

10 points

none of the above The absolute pressure of a 1.95-liter gas is increased from 101.3 kPa to 110 kPa. Determine the new volume.

10 points

none of the above A gas at 14.7 psia is heated from 300 K to 371 K. Find the new pressure in psia?

10 points

none of the above