Physics for Scientists and Engineers with Modern Physics, Technology Update
Physics for Scientists and Engineers with Modern Physics, Technology Update
9th Edition
ISBN: 9781305401969
Author: SERWAY, Raymond A.; Jewett, John W.
Publisher: Cengage Learning
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Chapter 22, Problem 6P

(a)

To determine

The number of liters of fuel gasoline engine consumes in 1.00h of operation if the heat of combustion of the fuel is equal to 4.03×107J/L.

(a)

Expert Solution
Check Mark

Answer to Problem 6P

The number of liters of fuel gasoline engine consumes in 1.00h of operation if the heat of combustion of the fuel is equal to 4.03×107J/L is 29.4L/h.

Explanation of Solution

Write the expression for the input energy of the gasoline for a particular time interval.

  Ein=ErevωopΔt                                                                                                          (I)

Here, Ein is the input energy of the gasoline for a particular time interval, Erev is the input energy for each revolution of the crankshaft, ωop is the operating frequency of the gasoline engine and Δt is the time interval.

Conclusion:

It is given that, operating frequency of the engine is 2.50×103rev/min, energy required per revolution is 7.89×103J and energy exhausted for each revolution is 4.58×103J.

Substitute 2.50×103rev/min for ωop, 7.89×103J for Erev and 1h for Δt in equation (I) to get input energy in each hour.

  Ein=(7.89×103J)(2.50×103rev/min)(1h×60min1h)=1.18×109J/h

It is given that heat of combustion of the fuel is equal to 4.03×107J/L.

Calculate the number of liters of fuel consumed in 1.00h of operation if the heat of combustion of the fuel is equal to 4.03×107J/L.

  Vh=(1.18×109J/h)(1L4.03×107J)=29.4L/h

Here, Vh is the liters of fuel gasoline engine consumes in 1.00h of operation.

Therefore, the liters of fuel gasoline engine consumes in 1.00h of operation if the heat of combustion of the fuel is equal to 4.03×107J/L is 29.4L/h.

(b)

To determine

The mechanical power output of the engine.

(b)

Expert Solution
Check Mark

Answer to Problem 6P

The mechanical power output of the engine is 185hp.

Explanation of Solution

Write the expression for the energy taken from the hot reservoir using first law of thermodynamics.

  Qh=Weng+|Qc|                                                                                                         (II)

Here, Qh is the amount of thermal energy taken from the hot reservoir, Weng is the work done by the engine and |Qc| is the thermal energy exhausted at cold reservoir.

Divide above equation by time for continuous-transfer process.

  QhΔt=WengΔt+|Qc|Δt                                                                                                      (III)

Here, Δt is the time interval.

Write the expression for the power output.

  Peng=WengΔt                                                                                                             (IV)

Here, Peng is the power output of the engine.

Substitute Peng for WengΔt in equation (III) and rewrite the equation for Peng .

  QhΔt=Peng+|Qc|ΔtPeng=QhΔt|Qc|Δt                                                                                                        (V)

Conclusion:

Substitute 7.89×103J/rev for QhΔt and 4.58×103J/rev for |Qc|Δt in equation (V) to get Peng.

  Peng=(7.89×103J/rev4.58×103J/rev)(2500rev1min)(1min60s)=1.38×105W×1hp746W=185hp

Therefore, the mechanical power output of the engine is 185hp.

(c)

To determine

The torque exerted by the crankshaft on the load.

(c)

Expert Solution
Check Mark

Answer to Problem 6P

The torque exerted by the crankshaft on the load is 527Nm .

Explanation of Solution

Write the expression for the power output of the engine in terms of the torque exerted by the crankshaft on the load.

  Peng=τω                                                                                                                 (VI)

Here, Peng is the power output of the engine, τ is the torque exerted by the crankshaft on the load and ω is the angular frequency of rotation.

Rearrange above equation to get τ.

  τ=Pengω                                                                                                                  (VII)

Conclusion:

Substitute 1.38×105W for Peng and 2.5×103rev/min for ω in equation (VII) to get τ.

  τ=1.38×105W(2.5×103rev/min×1min60s)(1rev2πrad)=527Nm

Therefore, the torque exerted by the crankshaft on the load is 527Nm.

(d)

To determine

The power the exhaust and cooling system must transfer out of the engine.

(d)

Expert Solution
Check Mark

Answer to Problem 6P

The power the exhaust and cooling system must transfer out of the engine is 1.91×105W.

Explanation of Solution

Write the expression for the power transfer of exhaust and cooling system.

  Pexhaust=|Qc|Δt                                                                                                        (VIII)

Here, Pexhaust is the power transfer of exhaust and cooling system.

Conclusion:

It is given that, frequency of revolution of the crankshaft is 2.5×103rev/min

Calculate the energy exhausted in 2500rev.

  |Qc|=4.58×103J/rev×2500rev=11450J

Substitute 11450J for |Qc| and 1min for Δt in equation (VIII) to get Pexhaust .

  Pexhaust=11450J1min×60s1min=1.91×105W

Therefore, the power the exhaust and cooling system must transfer out of the engine is 1.91×105W.

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Chapter 22 Solutions

Physics for Scientists and Engineers with Modern Physics, Technology Update

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