Of Time and Space and Other Things |
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Page 150
... gram - centimeter - second basis . Now shall we get back to Einstein's equation ? There the units of e worked out to ... gram of matter were completely converted to energy , you would find yourself possessed of nine hundred quintillion ...
... gram - centimeter - second basis . Now shall we get back to Einstein's equation ? There the units of e worked out to ... gram of matter were completely converted to energy , you would find yourself possessed of nine hundred quintillion ...
Page 152
... gram of water from 14.5 ° C. to 15.5 ° C. ( The amount of heat necessary to raise a gram of water one Celsius degree varies slightly for different temperatures , which is why one must carefully specify the 14.5 to 15.5 busi- ness ...
... gram of water from 14.5 ° C. to 15.5 ° C. ( The amount of heat necessary to raise a gram of water one Celsius degree varies slightly for different temperatures , which is why one must carefully specify the 14.5 to 15.5 busi- ness ...
Page 155
... gram of mass . That gram of mass will liberate : 900,000,000,000,000,000,000 ergs , or or or or 90,000,000,000,000 joules , 21,500,000,000,000 calories , 21,500,000,000 kilocalories , 25,000,000 kilowatt - hours . Which brings us to the ...
... gram of mass . That gram of mass will liberate : 900,000,000,000,000,000,000 ergs , or or or or 90,000,000,000,000 joules , 21,500,000,000,000 calories , 21,500,000,000 kilocalories , 25,000,000 kilowatt - hours . Which brings us to the ...
Contents
A Galaxy at a Time | 109 |
Forget It | 122 |
Nothing Counts | 134 |
Copyright | |
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ancient astronomer atoms attraction average Babylonian begin body calculated calendar called calorie catalyst celestial equator centimeters century chemical cm²/sec² consider constellation diameter discovered distance dyne Earth eclipse ecliptic electric charge electromagnetic force electrons energy equal fact five fluorine frequency galaxy gram gravitational force Greek Gregorian calendar heartbeat hundred hydrogen inert gases instance joule Julian Julian calendar Jupiter latitude light light-years live longitude Mars mass means measure meridian miles million minutes molecules Moon move Neptune night sky nucleus object observer Olbers orbit oxygen particles physicist Planck Planck's constant planet planetoids platinum Pole positrons pre-supernova radiation ratio reason represent Roche limit Roman numerals rotation Saturn shared pool shell sidereal day solar day Solar System stars sulfur sulfur dioxide supernova suppose sure surface symbols temperature thousand tion true satellite tug-of-war value turned units universe Uranus Venus vernal equinox visible xenon