| 21. | Where is the heat capacity and the specific heat capacity ( heat capacity per unit mass ) of a gas.
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| 22. | Averaged over all stars at x, this acceleration must equal the gravitational restoring force per unit mass F _ x.
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| 23. | As the number of hydrogen atoms per unit mass decreases, so too does their energy output provided through nuclear fusion.
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| 24. | :: Another reason is that for small particles there is a larger surface area per unit mass than for larger particles.
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| 25. | They have an amazing capacitance per unit volume, but not a very high energy per unit volume or per unit mass.
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| 26. | Some nanoparticles outperform hydrogen ( per unit volume ) and hydrocarbons ( per unit mass and volume ) in terms of energy storage.
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| 27. | Therefore, in ostriches we see use of more energy when compared to smaller birds in absolute terms, but less per unit mass.
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| 28. | Where is the specific ( with the sense of " per unit mass " ) thermodynamic work, the internal source term.
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| 29. | So the potential can be interpreted as the negative of the work done by the gravitational field moving a unit mass in from infinity.
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| 30. | Thus from the target's point of view, colliders can explore collisions with much higher projectile energy and momentum per unit mass.
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