Category: Steam and Gas Turbines Objective Questions

Automobile Engineering Multiple Choice Questions on “Steering System”.

1. The front axle of a car has pivot centers 1.3 m apart. The angle of inside lock is 40℃ and the angle of the outside lock is 35℃. What is the wheelbase of the car?
a) 5.5 m
b) 3.5 m
c) 4.5 m
d) 6.5
Answer: a
Clarification: For correct steering, cot α – cot θ = c / b where c = pivot center, b = wheelbase, α = angle of outside lock, and θ = angle of inside lock. Cot α – Cot θ = c / b ⇒ Cot 35 – Cot 40 = 1.3 / b ⇒ b = 5.49 m.

2. If the wheelbase, the pivot center, and wheel track of the are 2.5 m, 1.1 m, and 1.3 m respectively. The angle of the inside lock is 42℃. What is the circle radius of the outer front wheel?
a) 2.6 m
b) 3.6 m
c) 4.6 m
d) 1.6 m
Answer: b
Clarification: b = wheelbase = 2.5 m, c = pivot center = 1.1 m, a = wheel track = 1.3 m, and θ = angle of inside lock = 42℃. For the inner front wheel, radius =(frac{b}{sin⁡theta} – frac{a – c}{2} = frac{2.5}{sin⁡42} – frac{1.3 – 1.1}{2}) = 3.6 m

3. What is the angle between the steering axis and the vertical in the plane of the wheel?
a) Castor
b) Camber
c) Steering axis inclination
d) Kingpin inclination
Answer: a
Clarification: Castor is the angle between the steering axis and the vertical in the plane of the wheel. Positive castor improves the straight-line stability of the car.

4. If the front of the front wheels is inside and rear of front wheels are apart when the vehicle is at rest, then the configuration is called?
a) Toe-in
b) Toe out
c) Positive camber
d) Positive castor
Answer: a
Clarification: Toe-in is the amount by which the front wheels are set closer together at the front than at the rear when the vehicle is stationary. Toe-in provided generally less than 3 mm.

5. What is the name of the angle through which the wheel has to turn to sustain the side force?
a) Slip angle
b) Castor angle
c) Camber
d) Kingpin inclination
Answer: a
Clarification: The slip angle is the angle through which the wheel has to be turned to sustain the side force on the wheel. The force produced due to this which counters the side thrust is known as cornering force.

6. What is called the cornering force over the slip angle?
a) Castor trail
b) Cornering power
c) Self-righting torque
d) Pneumatic trail
Answer: b
Clarification: The ratio of cornering force to the slip angle is called the cornering power. The cornering power increases due to tire stiffness.

7. What is a condition called when the vehicle will try to move away from its normal direction and to keep it on the right path there is need to steer a little?
a) Understeer
b) Oversteer
c) Reversibility
d) Irreversibility
Answer: a
Clarification: When the slip angles of the front wheels are greater than those for the rear wheels, the radius of the turn is increased. Due to which there is the need to steer more than required which is called understeer.

8. What is the purpose of the reciprocating ball type steering gear?
a) To reduce the operating cost
b) To reduce the number of parts
c) To reduce the operating friction
d) To reduce the toe-out during the turns
Answer: c
Clarification: The reciprocating ball type steering gear serve the purpose of reducing the friction and wear of the gear.

9. What is the angle between the vertical when the top of the wheel slants outward?
a) Negative camber
b) Negative castor
c) Positive camber
d) Positive castor
Answer: c
Clarification: The angle between the vertical when the top of the wheel slants outward is called positive camber. Positive camber will lead to decrease in turning radius and thus lead to a decrease in the steering effort.

10. The furniture rollers are provided with negative castor.
a) True
b) False
Answer: b
Clarification: The furniture rollers are provided with positive castor. The positive castor gives more directional stability. In positive castor, steering axis would meet the ground ahead of the center of the roller. The later wheel would always follow the former wheel.

Steam and Gas Turbines Multiple Choice Questions on “Effect of Pressure and Temperature”.

1. When boiler pressure is increased efficiency is ____________
a) decreased
b) increased
c) remains constant
d) none of the mentioned

Answer: b
Clarification: When boiler pressure is increased efficiency is increased.

2. Why is operating pressure of boiler designed?
a) To maintain economic equivalence
b) For not decreasing efficiency
c) No such operating pressures are designed
d) None of the mentioned

Answer: a
Clarification: If boiler pressure is increased efficiency also increases. But if we keep on increasing boiler pressure to increase efficiency, Boilers that work under high pressure as costly and so boiler operating pressures are designed so that for a particular boiler it does not work beyond that pressure and it maintains economical equivalence.

3. When boiler pressure is increased __________
a) efficiency is increased
b) Qh is increased
c) efficiency & Qh is increased
d) none of the mentioned

Answer: c
Clarification: When boiler pressure is increased Qh increases as a result efficiency is increased.

4. Can we keep on increasing the pressure of the boiler to increase its efficiency?
a) Yes
b) No

Answer: b
Clarification: Boilers that work under high pressure are much more costly.

5. What happens to the efficiency when temperature is increased in rankine cycle?
a) Increased
b) Decreased
c) Remains constant
d) None of the mentioned

Answer: a
Clarification: When the temperature is increased reheating capacity of the steam increases and thus efficiency also increases.

6. Increase in temperature increases __________
a) reheating capacity of the fluid
b) thermal efficiency
c) reheating capacity of the fluid & thermal efficiency
d) none of the mentioned

Answer: c
Clarification: When reheating capacity is increased it automatically increases the thermal efficiency.

7. When condenser pressure is lowered efficiency _________
a) increases
b) decreases
c) does not effect
d) none of the mentioned

Answer: a
Clarification: When operating pressure of condenser is lowered, Heat rejecting temperature also lowers which eventually increases the efficiency.

8. Superheating the steam increases efficiency.
a) True
b) False

Answer: a
Clarification: Average Temperature of steam can be increased without increasing the pressure by superheating.

9. Superheating the steam results in __________
a) increasing the efficiency
b) decreases the moisture content
c) increasing efficiency & decreases the moisture content
d) none of the mentioned

Answer: c
Clarification: Superheating the steam increases the steam temperature and also decreases the moisture content in the steam.

10. When boiler pressure is increased __________
a) temperature also increased
b) efficiency also increases
c) temperature & efficiency increases
d) none of the mentioned

Answer: a
Clarification: When boiler pressure is increased steam temperature increases which increases efficiency.

Steam and Gas Turbines Questions for entrance exams on “Requirements for Radial Equilibrium and Velocity Diagrams”.

1. For radial equilibrium axial flow is assumed.
a) True
b) False
Answer: b
Clarification: For radial equilibrium asymmetrical flow is assumed.

2. For radial equilibrium constant velocity is assumed.
a) True
b) False
Answer: a
Clarification: For radial equilibrium meridional velocity is assumed to be constant.

3. For simple radial equilibrium it is assumed that ______________
a) r*Vu = constant
b) r/Vu = constant
c) Vu/r = constant
d) None of the mentioned
Answer: a
Clarification: For a free vortex in a radial equilibrium it is assumed that the product of radius and velocity has remained as constant.

4. Secondary losses are caused due to _________
a) frictional forces
b) lift force induced in turbine
c) drag force induced by secondary force
d) none of the mentioned
Answer: c
Clarification: Secondary losses are caused due to drag forces induced by secondary forces.

5. For radial equilibrium it is assumed that viscosity is __________
a) high
b) negligible
c) low
d) none of the mentioned
Answer: b
Clarification: For radial equilibrium the flow is assumed to be asymmetrical and viscous forces are assumed to be negligible.

6. In radial equilibrium method blade force is assumed to be ____________
a) high
b) low
c) zero
d) none
Answer: c
Clarification: Blade forces are assumed to be zero in radial equilibrium.

7. For radial equilibrium it is assumed that heat transfer is ____________
a) zero
b) high
c) low
d) none
Answer: a
Clarification: For radial equilibrium it is assumed that the flow is non viscous flow and heat transfer is zero.

8. For radial equilibrium entropy term is _________
a) high
b) low
c) neglected
d) none of the mentioned
Answer: c
Clarification: For radial equilibrium method entropy term is neglected.

9. For radial equilibrium it is assumed that the steam lines are ___________ to the axis line.
a) perpendicular
b) parallel
c) inclined
d) none of the mentioned
Answer: b
Clarification: For radial equilibrium it is assumed that the steam lines are axis parallel and have no inclination.

10. For radial equilibrium friction is neglected.
a) True
b) False
Answer: a
Clarification: Friction is neglected in radial equilibrium.

Steam and Gas Turbines for entrance exams,

Steam and Gas Turbines Multiple Choice Questions on “Flow Passages with Radial Equilibrium”.

1. Flow through turbo machinery is ________
a) one dimensional
b) two dimensional
c) three dimensional
d) none of the mentioned
Answer: c
Clarification: Fluid flow in turbo machinery is a three dimensional flow.

2. Third direction of the flow in turbo machinery is _______
a) blade width
b) blade height
c) heat flow direction
d) none of the mentioned
Answer: b
Clarification: Flow direction and tangential flow direction are the two directions and the third direction is blade height.

3. Centrifugal forces acts in ________
a) tangential direction
b) flow direction
c) radial direction
d) none of the mentioned
Answer: c
Clarification: Centrifugal flow acts in the third direction that is radial direction.

4. The field produced by centrifugal force distorts the flow velocity.
a) True
b) False
Answer: a
Clarification: Centrifugal force produced creates a field on the flow and distorts the velocity of flow.

5. Radial equilibrium theory assumes that flow is in equilibrium before and after the fluid entering the blade.
a) True
b) False
Answer: a
Clarification: Radial equilibrium method assumes flow is in equilibrium before the fluid enters and after the fluid leaving the blade.

6. Radial equilibrium theory is more important for Radial flow machines.
a) True
b) False
Answer: b
Clarification: Radial equilibrium theory is more important for axial flow machines.

7. In radial equilibrium method centrifugal force is equated to __________
a) pressure force
b) axial force
c) centripetal force
d) none of the mentioned
Answer: a
Clarification: For a particle to move in constant radius centrifugal force must be equal to pressure force.

8. For radial equilibrium flow radial component must be _______ along the radial direction of flow.
a) higher
b) zero
c) lesser
d) none of the mentioned
Answer: b
Clarification: In radial equilibrium method radial component must be equal to zero.

9. Stagnation enthalpy is _______ in turbo machine along the radial direction.
a) higher
b) zero
c) constant
d) none of the mentioned
Answer: c
Clarification: Stagnation enthalpy is constant in turbo machines along the radial flow direction.

10. Stagnation enthalpy is _________ at intake and discharge.
a) constant
b) low
c) high
d) none of the mentioned
Answer: a
Clarification: Stagnation enthalpy is constant in turbo machines along the radial flow direction at intake and discharge.

Steam and Gas Turbines Multiple Choice Questions on “Centrifugal Compressor”.

1. Centrifugal compressors are also known as ____________
a) turbo compressors
b) radial compressors
c) turbo & radial compressors
d) none of the mentioned
Answer: b
Clarification: Centrifugal compressors sometimes called as radial compressors.

2. In idealized turbo machinery, pressure rise is done by adding _______
a) Temperature
b) Mass
c) Kinetic energy
d) None of the mentioned
Answer: c
Clarification: In idealized turbo machinery the pressure rise is done by adding kinetic energy.

3. The pressure rise in impeller is _________ the rise in diffuser.
a) equal to
b) greater than
c) equal to or greater than
d) none of the mentioned
Answer: d
Clarification: Not in all cases pressure rise in diffuser equals to pressure rise in impeller in some cases pressure rise in impeller will be more than that of diffuser.

4. In centrifugal compressor velocity of flow leaving the impeller is equals to _______ in many cases.
a) Speed of sound
b) Double the speed of sound
c) Triple the speed of sound
d) None of the mentioned
Answer: a
Clarification: Initially the flow enters straightly into the impeller and the impeller pushes the flow inwards to spin faster and finally when the flow is leaving impeller it has almost speed of sound.

5. ________ are used as stationary compressors in steam turbines.
a) Moving vanes
b) Guide vanes
c) Moving & Guide vanes
d) None of the mentioned
Answer: b
Clarification: Guide vanes are used as stationary compressors where guide vanes reduce the velocity and according to Bernoulli’s theorem when velocity is reduced its pressure is increased.

6. ________________ has large change in inlet to exit radius when compared to centrifugal compressors.
a) Axial compressors
b) Axial & Centrifugal compressors
c) Centrifugal compressors
d) None of the mentioned
Answer: c
Clarification: Centrifugal compressors has large change in inlet to exit temperature when compared to axial compressor.

7. The first part in both centrifugal compressor and axial compressor are similar.
a) True
b) False
Answer: a
Clarification: The first in both centrifugal compressor and axial compressor are similar.

8. Centrifugal compressor __________ the energy by increasing the radius where as centrifugal fan decreases the energy.
a) increases
b) decreases
c) both follow the same
d) none of the mentioned
Answer: b
Clarification: Both centrifugal compressor and centrifugal fan are similar as both increases the energy by reducing the radius.

9. Centrifugal compressors increases the density of fluid more than ________
a) 1%
b) 3%
c) 5%
d) 7%
Answer: c
Clarification: Centrifugal compressors increases the density of fluid more than 5 %.

10. Centrifugal fan has relative fluid velocities ______
a) Mach number more than 0.3
b) Mach number less than 0.1
c) Mach number less than 0.3
d) Mach number more than 0.5
Answer: c
Clarification: Centrifugal fans often operate at fluid velocities less than mach number 0.3.

Steam and Gas Turbines Multiple Choice Questions on “The Regenerator”.

1. In regenerator energy is stored in ___________
a) gas medium
b) fluid medium
c) thermal medium
d) none of the mentioned
Answer: b
Clarification: In regenerator energy is stored in the thermal medium.

2. Both hot and cold fluid used in regenerators is __________
a) same fluid
b) different fluid
c) depending on the situation
d) none of the mentioned
Answer:a
Clarification: Both hot and cold fluid used in regenerators is the same fluid.

3. Heat regenerators are ___________
a) dependent
b) repetitive
c) costant
d) none of the mentioned
Answer: c
Clarification: Heat regenerators are repetitive.

4. Rotatary regenerators are _________ flow path.
a) parallel
b) counter flow path
c) repetitive
d) none of the mentioned
Answer: b
Clarification: Rotatry regenerators have counter flow path.

5. In a fixed matrix regenerator flow is __________
a) reversible
b) irreversible
c) repetitive
d) none of the mentioned
Answer: a
Clarification: In a fixed matrix regenerator flow is reversible. In fixed matrix regenerator flow can be in both directions depending on the requirement.

6. In a fixed flow regenerator flow is __________
a) repetitive
b) counter
c) parallel
d) none of the mentioned
Answer: c
Clarification: In a fixed flow regenerator flow is counter current.

7. Fixed matrix regenerator is a part of ________ system.
a) valveless
b) valve
c) depending on the requirement
d) none of the mentioned
Answer: a
Clarification: Fixed matrix regenerators is a part of valveless system. In fixed matrix flow is reversible.

8. Rothemuhle regenerator has same design of _________ regenerator.
a) fixed matrix
b) varying matrix
c) varying & fixed matrix
d) none of the mentioned
Answer: a
Clarification: Rothemuhle regenerator has same design of fixed matrix regenerator.

9. Regenerators used in cryogenics are ________
a) small
b) large
c) medium
d) none of the mentioned
Answer: b
Clarification: Regenerators used in cryogenics are large. Cryogenic engines require large structures.

10. Regenerators have lower surface area than recuperator.
a) True
b) False
Answer: b
Clarification: Regenerators have higher surface area than recuperators.