Page 30 - Physical chemistry understanding our chemical world
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(γ -ray impulse LCD (radio V 1 RT at (E g 100 of small
photon nerve single wing single a by an of second photons across mA 1 N) (1 kg temperature glucose of mole photons mass a in very a
ten high-energy single a of consumption fly’s a of beat second per screen per consumption low-energy of mole passing by Vit) = 0.1 of energy m s −1 1 of velocity room of 1 / 3 th burning bar) Mars γ -ray of mole held mc 2 ) = detonating by
of a of energy m) 10 −10 = energy per energy released energy TV a on phosphor energy = display per energy m) 10 = λ of released energy (energy s 100 kinetic the half a at travelling energy the half 2.3kJ) = K 298 of energy = a quarter a 1 of energy = m) 10 −10 = E (via energy = released energy bomb nuclear
powers aj 1 = fJ 1 λ of = pJ 1 = nJ 1 = 1µJ mJ 1 watch = cJ 1 wave = dJ 1 for = J 1 = kJ 1 of MJ 1 (about GJ 1 (λ TJ 1 = PJ 1
prefixes joules in energy 0.000, 000, 000, 000, 000, 001 0.000, 000, 000, 000, 001 0.000, 000, 000, 001 0.000, 000, 001 0.000, 001 0.001 0.01 0.1 1 1, 000 1, 000, 000 1, 000, 000, 000 1, 000, 000, 000, 000 1, 000, 000, 000, 000, 000
Standard ten: of Powers atto a 10 −18 ffemto 10 −15 ppico 10 −12 nnano 10 −9 micro µ 10 −6 milli m 10 −3 centi c 10 −2 deci d 10 −1 1 10 0= 1 kilo k 10 3 Mmega 10 6 Ggiga 10 9 Ttera 10 12 Ppeta 10 15
