Physics |
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Page 12
... HEAT- Importance of heat - Fireplaces - Air expands when it is heated - Why smoke goes up the chimney - Stoves - The hot air furnace - Ventilation - Hot water heating - Convec ... HEAT AND WORK- CHAPTER VII Heat from work - Work 12 CONTENT S.
... HEAT- Importance of heat - Fireplaces - Air expands when it is heated - Why smoke goes up the chimney - Stoves - The hot air furnace - Ventilation - Hot water heating - Convec ... HEAT AND WORK- CHAPTER VII Heat from work - Work 12 CONTENT S.
Page 13
Charles Riborg Mann, George Ransom Twiss. HEAT AND WORK- CHAPTER VII Heat from work - Work from heat - Relative efficiencies of teakettles - Relative efficiencies of burners - Heat of com- bustion - Thermal efficiency - Early steam ...
Charles Riborg Mann, George Ransom Twiss. HEAT AND WORK- CHAPTER VII Heat from work - Work from heat - Relative efficiencies of teakettles - Relative efficiencies of burners - Heat of com- bustion - Thermal efficiency - Early steam ...
Page 15
... HEAT ENGINES- CHAPTER XVII Expansion of heated air - Work done by expanding air- Heating air at constant volume - Absolute temperature scale -The air thermometer - Energy and temperature - What the condenser does - Advantage of a flash ...
... HEAT ENGINES- CHAPTER XVII Expansion of heated air - Work done by expanding air- Heating air at constant volume - Absolute temperature scale -The air thermometer - Energy and temperature - What the condenser does - Advantage of a flash ...
Page 109
... . With how many pounds force does it push up when submerged ? 22. How many foot - pounds of work would be done in pushing the football ( problem 21 ) 10 feet deeper ? CHAPTER VI HEAT 98. Importance of Heat . Few animals WATER POWER 109.
... . With how many pounds force does it push up when submerged ? 22. How many foot - pounds of work would be done in pushing the football ( problem 21 ) 10 feet deeper ? CHAPTER VI HEAT 98. Importance of Heat . Few animals WATER POWER 109.
Page 110
Charles Riborg Mann, George Ransom Twiss. CHAPTER VI HEAT 98. Importance of Heat . Few animals and plants live in the extreme polar regions because of lack of heat . But while a certain amount of heat is necessary to life , fire de ...
Charles Riborg Mann, George Ransom Twiss. CHAPTER VI HEAT 98. Importance of Heat . Few animals and plants live in the extreme polar regions because of lack of heat . But while a certain amount of heat is necessary to life , fire de ...
Common terms and phrases
ammeter amperes armature battery beam body boiling called center of gravity centimeter charged circuit coil colors condenser convex lens copper cubic cubic foot current flows cylinder direction distance dry cell earth efficiency electric current electromotive force engine equal feet fluid focal length focus foot foot-pounds frequency friction galvanometer given glass gram-calories grams gravity cell greater heat Hence horsepower inclined plane increases iron kinetic energy kite lamp lens angle lever lifted light lines of force liquid loop machine magnet mass measured mechanical advantage mercury metal mirror motion motor moving object particles passes pipe piston placed plate pole pounds per square pounds-force pressure problem produced pull pulley pump push rays reflected resistance rotating screen speed square inch steam string surface temperature tube velocity vertical vibrations visual angle voltmeter volts volume water vapor watts waves weight wheel wire
Popular passages
Page 26 - Every body continues in its state of rest or of uniform motion in a straight line, except in so far as it may be compelled by impressed forces to change that state.
Page 65 - To every action there is always an equal and contrary reaction ; or the mutual actions of any two bodies are always equal and oppositely directed.
Page 27 - Gravitation states that every particle in the universe attracts every other particle with a force that is directly proportional to the product of the masses and inversely proportional to the square of the distance between them.
Page 92 - The loss of weight of a body immersed in a fluid is equal to the weight of the displaced fluid, or a body immersed in a fluid is buoyed up by a force equal to the weight of the fluid displaced by it.
Page 84 - We took then a long glass tube which by a dexterous hand and the help of a lamp was in such a manner crooked at the bottom that the part turned up was almost parallel to the rest of the tube...
Page 268 - Why the image is seen as far behind the mirror as the object is in front of it.— Let AB be an arrow held Fig.
Page 167 - If now, we look along the wire in the direction in which the current is flowing, the magnetic field is whirling around the wire in the direction we would turn down a right-hand screw.
Page 81 - Pascal's law, which states that "a pressure exerted on a confined liquid is transmitted undiminished in all directions and acts with equal force on all equal areas.
Page 45 - The torque of an engine shaft, or other rotating element, is its turning moment, which is measured by the product of the force and the perpendicular distance from the axis of rotation to the line of action of the force. The customary units of torque are the pound-foot, or the pound-inch.
Page 85 - Boyle's law— the volume of a given mass of gas at a constant temperature is inversely proportional to the pressure to which it is subjected; or PI Vi = P^ Vz.