PES/ENSC 1500 Review Test 4

updated: Friday, December 13, 2019 14:50
you may use the following for test 4:
A real CALCULATOR, no phones, tablrets, pc's, etc. allowed
"two" 3.0 x 5.0 inch "real" note cards ( i.e do not cut them to size from a piece of paper)
do NOT combine the total area of two doublesided notecards into one sheet of paper (otherwise you will not be allowed to use it.)
handwritten only,
written cards may be doublesided
original ( i.e. not photocopied...)
no virtual note cards on phones or other infernal devices...
MULTIPLE CHOICE SECTION
Chapter 8: Air Pollution & Energy Use
B. Properties and Motion of the Atmosphere
pressure
density
density of air at 0 degrees C at 1 atm
buoyant force
Archimedes' Principle
temperature inversion
Earth's Wind Engine; Fig 8.7 Diagram for Trade winds, Prevaling Westerlies, Polar Easterlies
C. Air Pollutants and Their Sources
Particulates (242, 243, 247)
Aerosols
Carbon Monoxide (CO)
Sulfur Oxides (SO2 & SO3)
Acid Rain
Particulate Sulfates
micron (10^-6 meter)
Hydrocarbons or Volative Organic Compounds (VOCs)
Nitrogen Oxides
Photochemical smog
Organic radicals
Ozone
Acid Rain
Wet & Dry Deposition
Indoor Air Pollution; Table 8.4
E. Automobile Emission-Control Devices
F. Stationary Source Air-Pollution-Control Systems
Settling chambers or gravitational collectors
Inertial or Cyclones collector
Electrostatic Precipitator
Fabric Filters (or baghouse)
Scrubbers
Flue-gas desulfurization
Fluidized bed combustion (FBC)
Chapter 9: Global Warming & Thermal Pollution
B. Global Warming & the Greenhouse Effect: Observations
greenhouse effect; Fig. 9.1
C. Global Warming: Possible Impacts
carbon cycle
feedbacks
conversion of CO2 emissions pg. 286
D. Global Warming: Possible Actions
carbon sequestration
E. Thermal Pollution
thermal pollution
F. Ecological Effects of Thermal Pollution
Lake Processes: Eutrophication
eutrophication
G. Cooling Towers & Ponds
cooling towers
cooling pond
"Potential" Problems
atmospheric pressure at sea level in Pa (Pascals) , Psi (Pounds per square inch)
density of fresh water, & sea water
free fall acceleration "g" on earth
distance, velocity & time equation
Pressure equation
Density equation
Pressure on object immersed in fluid
Mass of a planet's atmosphere: MASS = { (atm pressure at sea level) * [ (4) (Pi) (R^2) ] } / ( g )
Pressure exerted per unit area
Density of an object
Pressure with depth
Settling velocity of particulates
"No Greenhouse Temperatures" of a Planet = { (280 K) * [ ( 1 - reflectivity ) / (distance^2) ] ^.25 }