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An Introduction to Thermal Physics

Daniel V. Schroeder

Physics

1st Edition 路 356 pages

ISBN: 9780201380279

Chapter 5: Q. 5.18 (page 162)

Imagine that you drop a brick on the ground and it lands with a thud. Apparently the energy of this system tends to spontaneously decrease. Explain why.

Short Answer

Expert verified

The energy is transferred from the brick to the ground, so the energy of the system tends to spontaneously decrease.

Step by step solution

01

Given information

A brick is dropped to the ground and it lands with a thud.

Energy of this system tends to spontaneously decrease,

02

Explanation

Helmholtz free energy can be determined by
F=U-T S
Where, F= Helmholtz free energy, U=Internal energy,T=absolute temperature of the system and S=entropy of the system.

The total energy of the brick = kinetic energy + potential energy

From the law of energy conservation this is always constant.

When the brick hits the ground, its kinetic energy is zero, but the potential energy remains the same. The kinetic energy is redistributed into the thermal energy of the molecules of the brick and to the ground where the brick hits.

So a part of the energy is transferred from the brick to the ground.

Therefore the energy of the system tends to spontaneously decrease.

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Most popular questions from this chapter

Prove that the entropy of mixing of an ideal mixture has an infinite slope, when plotted vs. x, at x = 0 and x= 1.

In the previous section I derived the formula $(鈭� F / 鈭� V)_{T} = - P$ . Explain why this formula makes intuitive sense, by discussing graphs of F vs. V with different slopes.

The standard enthalpy change upon dissolving one mole of oxygen at 25掳C is -11.7 kJ. Use this number and the van't Hoff equation (Problem 5.85) to calculate the equilibrium (Henry's law) constant for oxygen in water at 0掳C and at 100掳 C. Discuss the results briefly.

When solid quartz "dissolves" in water, it combines with water molecules in the reaction

${SiO}_{2} (s) + 2 H_{2} O (l) 鉄� H_{4} {SiO}_{4} (aq)$

(a) Use this data in the back of this book to compute the amount of silica dissolved in water in equilibrium with solid quartz, at 25掳 C

(b) Use the van't Hoff equation (Problem 5.85) to compute the amount of silica dissolved in water in equilibrium with solid quartz at 100掳C.

Below 0.3 K the slope of the 掳He solid-liquid phase boundary is negative (see Figure 5.13).

(a) Which phase, solid or liquid, is more dense? Which phase has more entropy (per mole)? Explain your reasoning carefully.

(b) Use the third law of thermodynamics to argue that the slope of the phase boundary must go to zero at T = 0. (Note that the *He solid-liquid phase boundary is essentially horizontal below 1 K.)

(c) Suppose that you compress liquid *He adiabatically until it becomes a solid. If the temperature just before the phase change is 0.1 K, will the temperature after the phase change be higher or lower? Explain your reasoning carefully.

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