College Physics
College Physics
11th Edition
ISBN: 9781305952300
Author: Raymond A. Serway, Chris Vuille
Publisher: Cengage Learning
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Chapter 30, Problem 10P

(a)

To determine

Mass of uranium in reserve.

(a)

Expert Solution
Check Mark

Answer to Problem 10P

The mass of uranium in reserve is 3.1×1010g .

Explanation of Solution

Given Info:

The percentage of mass reserved is 0.70% .

The amount of uranium reserved is 4.4×106 metric ton.

Formula used to calculate the mass of uranium reserved is,

m235U=Δpm

  • m235U is the difference in time between the cars to reach the destination
  • Δp is the percentage of mass reserved m is the speed of the slower car
  • m is the mass of uranium in reserve

Substitute 0.70% for Δp and 4.4×106 for m to find m235U .

m235U=(0.70%(1100%))(4.4×106metricton)(103kg1ton)(103g1kg)=3.1×1010kg

Thus, the mass of uranium in reserve is 3.1×1010g .

Conclusion:

The mass of uranium in reserve is 3.1×1010g .

(b)

To determine

The number of moles and atoms in reserve.

(b)

Expert Solution
Check Mark

Answer to Problem 10P

The number of moles in reserve is 1.3×108mol number of atoms in reserve is 7.8×1031atoms .

Explanation of Solution

Given Info:

The mass per one mole is 235g/mol .

The Avogadro number is 6.02×1023atoms/mol .

Formula to calculate the number of moles is,

n=m235UMmol

  • n is the number of moles
  • Mmol is mass per mol

Substitute 235g/mol for Mmol and 3.1×1010g for m235U to find n.

n=3.1×1010g235g/mol=1.3×108mol

Thus, the number of moles is 1.3×108mol .

Formula to calculate the number of atoms is,

N=nNA

  • N is the number of moles
  • NA is the Avogadro number

Substitute 1.3×108mol for n and 1.3×108mol for NA to find N.

N=(1.3×108mol)(6.02×1023atoms/mol)=7.8×1031atoms

Thus, the number of atoms is 7.8×1031atoms .

Conclusion:

The number of moles in reserve is 1.3×108mol number of atoms in reserve is 7.8×1031atoms .

(c)

To determine

The total energy available.

(c)

Expert Solution
Check Mark

Answer to Problem 10P

The total energy available is 2.6×1021J .

Explanation of Solution

Given Info:

The energy per atom is 208MeV/atom .

Formula to calculate the total energy available is,

E=NE0

  • E is the energy
  • E0 is the energy per atom

Substitute 208MeV/atom for E0 and 7.87×1031atom for N to find E .

E=(208MeV/atom)(7.87×1031atom)(1.60×1013J1MeV)=2.6×1021J

Thus, the total energy available is 2.6×1021J .

Conclusion:

The total energy available is 2.6×1021J .

(d)

To determine

The maximum time energy supply lasts.

(d)

Expert Solution
Check Mark

Answer to Problem 10P

The maximum time energy supply lasts is 5.5yr .

Explanation of Solution

Given Info:

The energy consumption rate is 1.5×1013J/s .

Formula to calculate maximum time energy supply lasts is,

t=EP

  • t is maximum time energy supply lasts
  • P is the energy consumption rate

Substitute 2.6×1021J for E and 1.5×1013J/s for P to find t .

t=(2.6×1021J1.5×1013J/s)(1yr3.156×107s)=5.5yr

Thus, the maximum time energy supply lasts is 5.5yr .

Conclusion:

The maximum time energy supply lasts is 5.5yr

(e)

To determine

The conclusion of the results.

(e)

Expert Solution
Check Mark

Answer to Problem 10P

Fission alone cannot meet the world’s energy needs at a price of $130 or less per kilogram of uranium.

Explanation of Solution

Fission alone cannot meet the world’s energy needs at a price of $130 or less per kilogram of uranium since the energy produced will last only 5.5 years for a large amount of uranium.

Conclusion:

Fission alone cannot meet the world’s energy needs at a price of $130 or less per kilogram of uranium.

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