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Basic Thermodynamics   
 1.00  MATTER EXISTS IN SPACE AND TIME Tags, Indices and Categories
 2.00  IDEAL FLUIDS Drop Title Display  
 3.00  WORK, ENERGY AND HEAT ...
 4.00  THERMODYNAMIC PROPERTIES ...
 5.00  THERMODYNAMIC ANALYSIS Author: J. Pohl  
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Section 1: Matter Exists in Space and Time
About Newton's Mechanics and Calculus ~ 1687
1.00   Matter Exists in Space and Time A0080-001
1.01   Basic Methodology A0098-002
♦   Prove:(A - B)² = ( A² - 2AB + B²) A0680-003
♦   Theorem of Pythagoras A0920-004
♦   Eratosthanes' Experiment A0930-005
♦   Drilling Rig Visibility A1040-006
♦   Prove: ( -1 ) x ( -1 ) = 1 A1160-007
1.02   Position: the First Vector A1220-008
♦   Pharaoh's Engineers A1900-009
♦   Vectors Contain Trigonometry A2019-010
♦   Crank, Rod and Piston A2040-011
♦   Ladder-boom Rescue Truck A2070-012
♦   Dog and Pony Show A2080-013
1.03   Basic Terms and Tools A1220-014
1.04   Models of Reality A2090-015
1.05   Motion in Space A2200-016
1.06   Velocity: the First Derivative A2310-017
1.07   Mass Equation: BODY A2380-018
1.08   Momentum: BODY A2500-019
1.09   Derivative of Momentum: BODY A2620-020
1.10   About:  f = ma A2740-021
1.11   Uniform Motion A2981-022
1.12   Constant Momentum Integrations A3020-023
♦   Valentino's Wake A3100-024
♦   Dog Greets Owners A3200-025
♦   Yacht and Sea Buoy A3410-026
♦   Scissor Jack A3510-027
♦   Train Passes Two Boys A3660-028
♦   Civil War Memorial A3770-029
♦   Steps to Integrate A3850-030
1.14   Measurement of μMEarth A3990-031
1.15   Weight and Weighing A4040-032
♦   Hand Supports a Mass A4100-033
♦   Lunar "Carry-Off" Luggage A4200-034
♦   Ten Pounds of Potatoes A4280-035
1.16   Vectors: BODY A4320-036
1.17   Notations: Position and Velocity A4340-037
1.18   Value, Slope and Curvature   A4380-038
1.19   Differentiation: Time-Dependent Integral   A4400-039
♦   Blue Ocean Towing A4410-040
1.20   Gravity at Altitudes A4500-041
♦   Projectile Arcs A4600-042
1.21   Events in Time A4680-043
♦   Galileo's Inclined Plane A4740-044
1.22   Omitted Forces A5120-045
♦   Parachutist's Drag Force A5200-046
♦   God Lifted Earth I A6000-047
♦   God Lifted Earth II A7000-048
♦   Point Blank A8400-049
♦   Shot Tower A8480-050
1.23   Momentum Equation: BODY A9680-051
1.24   Mom Eqn Component Form: BODY A9700-052
♦   Geo-stationary Orbits A9800-053
1.25   Vector Basis: Circular Motion A9820-054
♦   Polar versus Equatorial Weight A9840-055
♦   Kinematics of Bar AB A9842-056
♦   Rocket Lift-Off A9846-057
1.26   Method, System and Numbers A9940-058
1.27   Newton's Method A9855-059
Section 2: Ideal Fluids
About Fluids, Pressure and Hydrostatics
2.00   Ideal Fluids B0100-061
2.01   Mass, Density and Volume B0150-062
♦   LNG Tanker B0250-063
♦   Sphere, Tank, and Water B0350-064
♦   Concrete Mixture B0400-065
♦   Hurricane Wilma B0600-066
♦   Torricelli's Barometer B0800-067
2.02   Standard Atmospheric B1000-068
2.03   Hydrostatic Equation B1100- 069
2.04   Hydrostatic Solutions B1150- 070
♦   Pascal's Experiment B1300- 071
♦   Density of Fluid "A" B1400- 072
♦   Air, Oil, Cable Support Rod B1580- 073
♦   Water Barometer B1600- 074
♦   Piezometer B1800- 075
♦   Manometer and Bourdon Gages B2000- 076
2.05   Classical Piston and Cylinder B2200- 077
2.06   Pressure in a Jet B2300- 078
2.07   Pressure TerminologyB2400- 079
♦   Pressure Calculations B2600- 080
♦   Pressure of the Void B2700- 081
♦   Cave Diver B3000- 082
♦   Wilma's SurgeB3100- 083
♦   Off-Shore Natural GasB3250- 084
♦   Bubble-Tube Depth GageB3300- 085
♦   Monster TiresB3350- 086
♦   Volume of a SculptureB3700- 089
♦   Arctic Shelf IceB3900- 090
2.08   Ideal Gas and its Temperature B4050-091
♦   Using the Ideal Gas EquationB5600- 092
♦   Casting Rail WheelsB5800- 093
♦   Professor Foghorn's GageB6000- 094
♦   Abandoned Car B6300-095
♦   First Equestrian Ascent B6500-096
♦   Otto Von GuerickeB6540- 097
♦   Victor RegnaultB6800- 098
♦   Roof-Top ExitB7000- 099
♦   Two TanksB7200- 100
♦   Ocean of AirB7500- 101
♦   Hand Lotion EventB7800- 102
2.09   Gas Equation Validity B8000- 103
♦   Fuel Cell Mass ProportionsB8500- 104
♦   Nuclear WasteB8800- 105
 
Section 3: Work, Energy and Heat
Extensions of Newton's Ideas: Energy and Work
3.00   Work, Energy Discussion: BODYC0130- 106
3.01   Work and Kinetic Energy: BODY C0250-107
3.02   Work and Potential Energy: BODY C0350-108
3.03   Extrinsic Energy EquationC0550- 109
♦   Champagne Cork TrajectoryC0700- 110
♦   Perfect BounceC0850- 111
♦   Kids Clean the GarageC1000- 112
♦   Energy, Speed... MomentumC1150- 113
♦   Slap ShotC1300- 114
♦   Bilge Pump WorkC1450- 115
♦   Buoy Lift IC1500- 116
♦   Buoy Lift IIC1505- 117
♦   Tank with a Movable WallC1800- 118
3.04   Work ConsiderationsC1900- 119
♦   Hawk's NestC1950- 110
♦   Back SquatC1970- 111
♦   Rock ClimbC1980- 112
♦   Work to Draw the Castle BridgeC2100- 113
♦   Elephant Weighs TeakC2250- 114
♦   Polaris Scale ModelC2400- 115
♦   Work of Aircraft DragC2550- 116
♦   Choice of Workers: A or BC2700- 117
♦   Pushing a Crate UphillC2850- 118
3.05   Work as "on" or "by"C3000- 119
♦   Optimized WorkC3150- 120
♦   Drunk Driving AwarenessC3300- 121
♦   Wreck at BataviaC3450- 123
♦   Rock Falls on SpringC3500- 124
3.05   System: Selection and IsolationC3650- 125
3.06   Forklift EventsC3800- 126
3.07   Energy Equation: BODYC3380- 127
3.08   Internal Energy: the Particle PerspectiveC3420- 128
3.09   Compression WorkC4150- 129
3.10   Energy: SUBSTANCEC3640- 130
♦   Batch Mix EventC4280- 131
3.11   About EnthalpyC4140- 132
♦   Constant Volume Events: Ideal GasC4550- 133
3.13   Constant Pressure EventsC4660- 134
3.14   Reversible Adiabatic Gas ProcessC4990- 135
3.15   About EntropyC5120- 136
♦   Blowgun HunterC5250- 137
♦   Skateboard SkillC5375- 138
♦   Newman's AnnihilatorC5500- 130
♦   Kids on a SwingC5580- 140
♦   SCUBA HorsepowerC5600- 141
♦   What is cos(θ + 60°)?C5660- 142
3.16   About Heat and TemperatureC5700- 143
3.17   Heat and Work Sign ConventionsC5800- 144
3.18   Energy Equation: SUBSTANCE IC5900- 145
3.19   Energy Equation II: SUBSTANCEC6000- 146
3.20   Polytropic ProcessesC6100- 147
3.21   Events of Ideal GasesC6200- 148
3.22   Rotational Kinetic EnergyC6300- 149
♦   Air PistolC6400- 150
♦   Air/Water MortarC6500- 151
♦   Tank, Spring and HeaterC6600- 152
♦   Candle Beneath a PistonC6700- 153
♦   Average Force to BrakeC6800- 154
3.23   Mean Value TheoremC6900- 155
♦   Vacuum Launched RocketC7000- 156
♦   Hot ShotC7460- 157
3.24   About SpringsC7100- 158
♦   Bungee JumperC7300- 159
♦   Two Springs and a BoxC7400- 160
♦   Washer SwitchC7500- 161
3.25   Energy Rates and PowerC7700- 162
♦   Gravity Work-RateC7800- 163
♦   Elevator SpeedC7900- 164
3.26   Shaft WorkC8100- 165
♦   Ship's Reduction GearC8200- 166
♦   Horsepower of an OxC8300- 167
♦   Truck Least HorsepowerC8400- 168
♦   Tank LocomotionC8440- 169
♦   Cyclist PowerC8420- 170
♦   Car Drives UphillC8460- 171
♦   18-Wheeler Safe Braking Speed C8500-172
♦   Atwood's Machine C8600-173
♦   Deadweight Compactors C8800-174
♦   Pulling Sheet Piles C9000-175
 
Section 4: Thermodynamic Properties
Matter is Made Quantitative by its Properties
4.00   Thermodynamic Properties D0001-176
4.01   Phases at 1 AtmosphereD0040- 177
4.02   Normal Properties of WaterD0050- 178
4.03   Energy Equation: Constant PressureD0100- 179
♦   Chef Thickens the SoupD0500- 180
♦   When will the Teapot Whistle?D1500- 181
♦   Water at One AtmosphereD2500- 182
♦   Citrus ConcentrateD3400- 183
♦   Microwave CoffeeD3800- 184
♦   Grease Fire ExperimentD4000- 185>
4.04   Steam TablesD4020- 186
♦   Yardley's ExtractorD4200- 187
♦   Stone BoilingD5400- 188
♦   Pressure CookerD5800- 189
♦   Emergency Power MSD6000- 190
♦   Neon SignageD6200- 191
♦   Leaded Pipe Joint D6800- 192
♦   Specific Heat Calculation D7280- 193
♦   Space Shuttle Re-entry D8000- 194
♦   Copper Block Slides on Ice D8600- 195
♦   Sausage Preparation D8610- 196
♦   Ice versus Dry Ice Comparison D8620- 197
♦   1861 - Rifle Musket D9100- 198
♦   Laser Retina Surgery D9220- 199
 
Section 5: Thermodynamic Analysis
Analysis Explains or Predicts Simple Events
5.00   Thermodynamic Analysis E0900- 200
5.01   Mass Equation E1120- 201
Trans Alaska Pipeline E1340- 202
5.02   System Perspectives E1560- 203
Dig Suez E1780-204
♦   Linear Valve E2000-205
5.03   Leibnitz's Calculus E2220- 206
5.04   Linear Mass Equation E2440-207
♦   Pipe PigE2660- 208
♦   Boost PumpE2880- 209
♦   Freeze-Dried RattlesnakesE3100- 210
♦   Civil Rights MemorialE3320- 211
♦   Flow Through an Expansion E3340- 212
♦   Depth of Wine in Time E3760- 213
♦   Aluminum Extrusion E3980-214
5.05   Momentum Equation E4200-215
♦   Reaction of a Jet E4220-216
♦   Jet-Ski - Static Pull E4640-217
♦   Time to Refill the Pool E4860-218
♦   Pitot-Static Gage E5080- 219
♦   Where Water Jets Collide E5300- 220
♦   P-51 Mustang E5520- 221
5.06   Energy Equation E5740- 222
♦   Water Seeks its Level E5960- 223
♦   Gear Pump E6180- 224
♦   Aquarium Turbines E6460- 225
♦   Not a "COOL IDEA" E6620- 226
♦   Shipping Maeku E6840- 227
♦   Instant Hot Water E7060- 228
♦   Pipe Line Flow E7280- 229
♦   Torricelli's Theorem E7500- 230
♦   Scraped-Surface Heat Exchanger E7720- 231
♦   Cardiac Horsepower E7940- 232
♦   Niagara Falls Power E9160-233
♦   Tomato Juice E9300-234
♦   ZULIA - Side Casting Dredge E9530-235
♦   Water Pumped Vertically E9740-236
♦   Light Bulb Efficiency E9980-237