ISRO Interview Experiences | Mechanical

ISRO  Interview Details

•  The panel consists of 5-10  senior scientists, IIT faculties etc. 

• They may ask you to choose your top 3-5 favourite questions. They may or may not ask questions from your favourite subjects. 

• You need to give a full explanation of every question/topic asked. 

• Be familiarized with Blackboard teaching as you may have to explain on the blackboard. 

• They may ask you about your B.Tech final year project. But It completely depends on them. 

• For M.Tech students prepare well the M.Tech thesis topic. 

• Reach the interview venue before time. 

• Check all documents, a day in advance. 

• Don’t forget to keep a pen with you in the interview room.

ISRO interview Experience

4 Aug 2018 at delhi

After a brief introduction, they asked my fav. Sub they are as follows HT, MD, FM, Thermo

1. What is max stress in a bar which is hanging vertically?

2. If I want to design this bar what will be the min length I should take?

3. If I put the whole system in water then whether the length increase or decrease?

4. How many laws of thermodynamics u know? What is the first law of thermodynamics?

5. Draw adiabatic process on pv chart?

6. What are the conditions of the adiabatic process?

7. Derive $PV^{\gamma} = c$ ?

8. Draw two stage and one stage compressor?

9. What is intercooler? What amount of work has been saved by intercooling?

10. What if I do aftercooling ( means one more intercooler after 2nd stage)

11. I want to manufacture the glass (pointing glass present in front of interviewer) so draw a drawing of glass?

12. Then they asked last q. From one of my extracurricular activities, in that I attended workshop on rubber powered aircraft so they ask what is it?

NAME- Rajat Kumar Singh (AIR-1, ISRO, MECHANICAL-2017)

Venue- New Delhi
Interview reporting time: 8 AM
Interview happened at: 12:25 PM
DATE: 22 Sep 2017

There were 9-10 people including one female member sitting around U shaped table.

Chairman- good afternoon. Please introduce yourself.
Me- good afternoon mam and sirs. My name is Rajat Kumar Singh, I told them about my schooling, college,etc..(it was very short introduction). And my areas of interests are ENGG. MECHANICS, SOM, HMT, FLUID MECHANICS and MACHINE DESIGN.
(actually,i was not fully prepared for machine design so slowly told “machine design”)

M1- what is your last subject?
Me – sir Machine design.
(i thought ab to gya mai)

M1- ok rajat, what is fail-safe approach?
Me- after 3-4 second, sir it is an approach in designing, we design our system or machine in such a way that there is minimal loss in terms of money and safety. For example, in the design of shaft and key, we make our key weakest member. In boiler design also we provide safety valve so that in case of overpressure our boiler will be safe.

M2- Take a marker and draw a thick cylinder.
Me- i made two concentric circles.

M2- how will you classify thin and thick cylinders?
Me- sir if the wall thickness is less than about 7% of internal diameter we treat it as thin otherwise thick.

M2- okay, draw one more cylinder over it and there is fluid inside it. Tell me how will hoop stress vary for both cylinders?
Me -DRAWN

M2- what if there is external pressure and no internal fluid?
Me- drawn.
M2- good

M3- draw one cantilever with a point load at one end. Tell me the deflection at the free end.
Me: (trying to impress, started deriving the formula)
M3- just tell me the formula
Me- WL^3/(3 EI)

M3- cut it in two pieces and tell me about shear forces at different points.
Me- drawn two half beams and showed the shear forces.

M3- draw its shear force and bending moment diagram
Me- drawn easily.

M3- how will shear stress vary?
Me- drawn transverse shear stress variation.(D shaped)

M3- what is the relation between average and maximum shear stress?
Me- 3/2 times of average.

M3-What if beam is circular?
Me-4/3 sir.

M4- there is a rectangular beam hanging with a cable on a crane. The weight of beam is 10 tonnes. Angle b/w cables is 60 degree. What will be tension in the cable?
Me-(drawn) suppose weight is uniformly distributed then at each ends weight is 5 tonnes each. Applied force balance and calculated tensions easily.

M5- do you know projectile motion?
Me- yes sir.
M5- at what angle the range is maximum?
Me- at 45-degree sir(smiled)

M5- write rigid body equation of motion?
Me- d(m*v)/dt = F (i don’t know it was right or wrong but they
smiled).
(i was thinking inko bhukh ni lagi kya :p)

M6- if I give you perimeter= 12 m can you find the dimensions for the maximum area?

Female member(F)- Rajat I think you are tired now take a seat.
Me – thank you, mam.

F- we will ask something related to ISRO. Do you know what was last mission all about?
Me- mam it was the launch of PSLV C39. India is developing its own GPS, for that we already sent 7 satellites but mam there was some problem in one of the satellites. So we were replacing that satellite with a newer one. This mission was unsuccessful because heat shield did not separate.

F- what is heat shield?
Me-this is like a cover for our payload. Due to air resistance, surface temperature increases enormously. To protect our payload we use heat shield.

F- we are done now. Thank you.
Me- thank you mam
(everyone was smiling, a big sign of relief at that moment)

My interview went for about 35-40 minutes. This was purely technical.
The main thing is if you are not very well prepared don’t be nervous. In introduction only tell them about your favorite subjects. They didn’t ask about my project. I answered almost everything but if u don’t know the answer tell them directly.
I got 83.11 in the final result.

ISRO Mechanical interview on 24th Dec at SAC Ahmedabad 

Panel 8 persons( 7M + 1F)

After introduction chairman asked me favourite subjects and I replied SOM TOM MD and HMT Power Plant and then a rapid fire round of 30 minutes started

1. Define degree of freedom for a mechanism. What is the degree of freedom in space and plane?

2. What is Grubler’s formula to find dof of mechanism?

3. Draw a mechanism having all revolute pairs with 5 links and find dof.

4. Then in the same mechanism he told me to fix another link and asked what will be effect on dof?

5. What is redundant link and redundant dof?

6. Name different types of gears

7. Comparison between involute and cycloidal profile.

8. Draw tooth geometry and show pressure angle.

9. What is contact ratio?

10. What is path of contact and show when there will be first contact between teeth of gears?

The session of TOM was about to end but then chairman told that you have classified all types of gears but forgot one i.e. epicyclic gear train. I think he wanted me to also show internal gearing.

11. Draw epicyclic gear train and find dof.

12. Draw universal joint. Does the velocity ratio in universal joint remain constant or vary? If varies then write formula and show variation of velocity ratio with angular position of shafts.

Then some questions from Heat Transfe:

13. Suppose a cuboid in furnace at 300°C is brought suddenly to room temperature then write governing differential equation and show temperature variation with time.

14. I drew exponential decreasing curve and he was asking why curve is not touching room temp. line why it is going to infinity?

So this was a short session of Heat Transfer and then suddenly an interviewer asked

15. What is balancing and types.
16. Tell me the necessary condition for a rotating disk to be balanced.

****

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21. Two crossed helical gears are used for speed reduction. Gear A has pitch circle diameter in the plane of rotation 80mm and helix angle 30 deg; Gear B has pitch circle diameter in the plane of rotation 120mm and helix angle 22.5 deg. If the input speed is 1440 RPM, thenoutput speed in RPM is
(a) 1200                                                                                                (b) 875
(c) 900                                                                                                  (d) 700

Answer: (c)

22. The moisture in a refrigerant is removed by:
(a) dehumidifiers                                                                                               (b) safety relief vale
(c) driers                                                                                                            (d) expansion valve

Answer: (c)

23. In an arc welding process, the voltage and current are 25 V and 300 A respectively. The arc heat transfer efficiency is 0.85 and welding speed is 8 mm/sec the net heat input (in J/mm)
(a) 64                                                                                      (b) 797
(c) 1103                                                                                  (d) 79700

Answer: (b)

24. Hardness of steel greatly improves with
(a) annealing                                                                                                   (b) cyaniding
(c) normalizing                                                                                                (d) tempering

Answer: (d)

25.        Work Material                                          Type of Joining
       P  Aluminium                                          1. Submerged Arc Welding
       Q Die Steel                                              2. Soldering
       R Copper Wire                                         3. Thermit Welding
       S Titanium Shet                                        4. Aromic Hydrogen Welding
                                                                         5. Gas Tungsten Arc Welding
                                                                         6. Laser Beam Welding
(a) P-2, Q-5, R-1, S-3                                                                               (b) P-6, Q-3, R-4, S-4
(c) P-4, Q-1, R-6, S-2                                                                               (d) P-5, Q-4, R-2, S-6

Answer: (d)

26.        List A                                                                           List B
       P  Isobaric thermal expansion coefficient                       1. 0
       Q Isothermal compressibility                                          2. ∞
       R Isentropic  compressibility                                           3. 1/v
       S Joule Thomson Coefficient                                           4. 1/T
                                                                                                 5. 1/P
                                                                                                 6. 1/γp
(a) P-4, Q-2, R-3, S-6                                                                               (b) P-3, Q-5, R-4, S-1
(c) P-2, Q-4, R-1, S-5                                                                               (d) P-4, Q-5, R-6, S-1

Answer: (d)

27. If the mass of moist air in an airtight vessel is heated to a higher temperature, then
(a) Specific humidity of air increases                                           (b) Specific humidity of air decreases
(c) Relative humidity of air increases                                           (d) Relative humidity of air decreases

Answer: (d)

28. Threaded bolts of A and B of same material and length are subjected to identical tensile load. If the elastic strain energy stored in bolt A is 4 times that of bolt B and the mean diameter of bolt A is 12 mm, then mean diameter of bolt B is
(a) 16                                                                       (b) 24
(c) 36                                                                       (d) 48

Answer: (b)

29. In a condenser of a power plant, the steam condenses at a temperature at a 333 K. The cooling water enters at 303 K and leaves at 318 K. The logarithmic mean temperature difference (LMTD) of the condenser is
(a) 16.2 C                                                                              (b) 21.6 C
(c) 30 C                                                                                  (d) 37.5 C

Answer: (b)

30. The shear strength of a sheet metal is 300 Mpa. The blanking force required to produce a blank of 100 mm diameter from a 1.5 mm thick sheet is
(a) 45 kN                                                                                    (b) 70 kN
(c) 141 kN                                                                                  (d) 350 kN

Answer: (c)

31. A heat engine is supplied heat at the rate of 1700 kJ/min and gives an output of 9 kW. Thermal efficiency and heat rejection in kW of heat engine is
(a) 34.0%, 11.0                                                                                     (b) 28.3%, 10.0
(c) 31.76%, 19.33                                                                                 (d) 32.3%, 9.83

Answer: (c)

32. When we have combined free and forced convection, Gr/Re^2 is
(a) greater than 1                                                                                        (b) less than 1
(c) almost equal to 1                                                                                  (d) equal to Peclet Number

Answer: (c)

33. A refrigerator and heat pump operate between the same temperature limits. COP of refrigerator is 4, COP of heat pump would be
(a) 3                       (b) 5                     (c) 4                        (d) data not adequate

Answer: (b)

34. A carnot refrigerator requires 1.25 kW per ton of refrigeration to maintain a temperatue of 233 K. Its higher operating temperature of the cycle
(a) 318 K                       (b) 313 K                     (c) 315 K                        (d) 316 K

Answer: (d)

35. The work input to air compressor is minimum if the compression law followed is
(a) isentropic                       (b) PV =C                     (c) $PV^1.2 =C$                        (d) $VP^1.35 =C$

Answer: (b)

36. Operating pressure of the refrigerants at the evaporator in the ascending order for any application are
(a) R11, R12, R717, R22                                                                      (b) R22, R717, R12, R11
(c) R11, R12, R22, R717                                                                      (d) R717, R22, R11, R12

Answer: (a)

37. For vapour compression system using R717 the material of pipe is
(a) Steel                       (b) Copper                     (c) Brass                        (d) Aluminium

Answer: (a)

38. Air at DBT of 308K and DPT of 293 K passes through a cooling coil which is maintained at 298 K. The process would be
(a) cooling and de-humidification                                                                     (b) sensible cooling
(c) cooling and humidification                                                                           (d) can not predict

Answer: (b)

39. Room sensible heat loss is 30000 kJ/min and room latent heat loss is 20000 kJ/min. Sensible heat factor is
(a) -0.6                       (b) 0.6                     (c) 0.3                        (d) 3

Answer: (b)

40. Domestic refrigerator working on vapour compression cycle uses the following of expansion device
(a) Manually operated valve
(b) thermostatic valve
(c) expansion valve
(d) capillary tube

Answer: (d)

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1. The condition of stable equilibrium foe a floating body is:
(a) metacentre coincides with centre of gravity
(b) metacentre is below centre of gravity
(c) metacentre is above centre of gravity
(d) centre of buoyancy is above centre of gravity

Answer: (c)

2. The thickness of turbulent boundary layer at a distance x from the leading edge over a flat plate varies as
(a) $x^{0.8}$                                                                                           (b) $x^{0.5}$
(c) $x^{0.2}$                                                                                           (d) $x^{0.6}$

Answer: (a)

3. The diameters of a pipe at the section 2 and 2 are 10 cm and 15 cm respectively. Velocity of water flowing through the pipe at section 1 is 5 m/s. Velocity at section 2 in m/s and discharge in cmm is
(a) 2.2 & 2.4                                                                        (b) 2.7 & 2.8
(c) 2.1 & 2.4                                                                        (d) 2.4 & 2.6

Answer: (a)

4. The velocity distribution foe flow over a flat plate is given $u = \frac{3 y}{4} - y^2$ in which u is the velocity in m/s at a distance y meter above the plate. Shear stress at y = 0.15m is (Take viscosity for fluid is 8.5 poise)
(a) 0.3825 Pa                                                                                       (b) 0.3815 Pa
(c) 0.3835 Pa                                                                                       (d) 0.3845 Pa

Answer: (a)

5. A gas weighs 16 N/m3 at 288 K and at an adibatic pressure of 25 N/cm2. Its gas constant is
(a) 532 J/kg K                                                                                            (b) 544 J/kg K
(c) 553 J/kg K                                                                                             (d) 523 J/kg K

Answer: (a)

6. A pipe line AB of diameter 30 cm and of length 400 m carries water at the rate of 50 liters/sec. The flow takes place from A to B where point B is 30 meters above A. Pressure at B is 2 ksc. Pressure at A is (Take f =0.008)
(a) 5.2 ksc                                                                                      (b) 5.3 ksc
(c) 5.0 ksc                                                                                      (d) 5.1 ksc

Answer: (d)

7. A nozzle is fitted at the end of a pipe of length 300m and of diameter 10 cm for transmitting water. What is the diameter of the nozzle considering maximum transmission of power through the nozzle (f =0.009)
(a) 2.6 cm                                                                                          (b) 2.5 cm
(c) 2.4 cm                                                                                            (d) 2.7 cm

Answer: (a)

8. A  turbine develops 500 kW under a head of 100 meters at 200 RPM. Its normal speed and power under a head of 81 meters
(a) 184 RPM and 375 kW                                                                                (b) 180 RPM and 365 kW
(c) 184 RPM and 370 kW                                                                                (d) 180 RPM and 361 kW

Answer: (b)

9. Number of degrees of freedom in a Ball socket joint:
(a) 1                                   (b) 2                                      (c) 3                                       (d) 0

Answer: (c)

10. Two inelastic spheres of masses 10 kg each move with velocities of 15 m/s and 5 m/s respectively in the same direction. The loss in kinetic energy when they collide
(a) 500 Nm                                 (b) 0                                  (c) 250 Nm                           (d) 1000 Nm

Answer: (c)

11. In order to have maximum power from a Pelton turbine, the bucket speed must be
(a) equal to the jet speed
(b) equal to half of the jet speed
(c) equal to twice the jet speed
(d) independent of the jet speed

Answer: (b)

12. The alloying element mainly used to improve the endurance strength of steel material is
(a) Nickel                                                                                             (b) Vanadium
(c) Molybdenum                                                                                   (d) Tungusten

Answer: (b)

13. The percentage improvement in power capacity of a flat belt drive, when the wrap angle at the driving pulley is increased from 150 deg to 210 deg by an idler arrangement for a friction coefficient of 0.3 is
(a) 25.21                                 (b) 33.92                                  (c) 40.17                           (d) 67.85

Answer: (d) Power, P = (T1-T2)R and $\frac{T_1}{T_2} = e^{μθ}$
hence $P ∝ (1-e^{μθ})$
percentage improvement = (P1-P2)*100/P1 = 67.85

14. In an interchangeable assembly, shaft of size $25.000^{+0.04}_{-0.01}$ mm mates with a hole of size $25.000^{+0.03}_{+0.03}$ mm. Maximum interface in microns in the assembly is
(a) 40                                 (b) 30                                  (c) 10                           (d) 20

Answer: (d)

15. A column has a rectangular cross section of 10 x 20 mm and a length of 1m. The slenderness ratio of the column is close to
(a) 200                                 (b) 346                                  (c) 477                           (d) 1000

Answer: (b)

16. A thin cylinder of inner radius 500 mm and thickness 10 mm is subjected to an internal pressure of 5 MPa. The average hoop stress in MPa is
(a) 100                                 (b) 250                                  (c) 500                           (d) 1000

Answer: (b)

17. A circular disk of uniform thickness 20 mm, radius 200 mm and mass 20 kg is used as flywheel. If it rotates at 600 rpm, kinetic energy of flywheel in Joule is
(a) 395                                 (b) 790                                  (c) 1580                           (d) 3160

Answer: (b)

18. A vibration system consists of a mass of 175 kg, a spring stiffness 700 N/cm and damper with a damping coefficient of 7 N-sec/cm. Damping factor of the system is
(a) 0.15                               (b) 0.25                                 (c) 0.2                           (d) 0.1

Answer: (d)

19. Two cutting tools are being compared for a machining operation. The tool life equations are Carbide tool: $VT^1.6 = 3000$; HSS tool : $VT^0.6 = 200$, where V is the cutting speed in m/min and T is tool life in min. The carbide tool will provide higher tool life if the cutting speed in m/min exceedds
(a) 39.4                                 (b) 15                                  (c) 60                           (d) 49.3

Answer: (a)

20. The diameter of suction side of a reciprocating compressor compared to its delivery side is
(a) smaller                      (b) equal                   (c) bigger                     (d) varies according to capacity

Answer: (c)

[1-20]  [21-40] [41-60]  [61-80]

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SOLUTION OF THE WRITTEN TEST BY ISRO FOR SCIENTIST/ENGINEER 'SC' (REFRIGERATION & AIRCONDITIONING) [BE006 & BE010] -2017


61.For air with a relative humidity of 80%
(a) The dry bulb temperature is less than wet bulb temperature
(b) The dew point temperature is less than wet bulb temperature
(c) The dew point and wet bulb temperatures are equal
(d) The dry bulb and dew point temperatures are equal

Answer: (b)

62. During evaporative cooling process, wet bulb temperature
(a) Increases                                                                                             (b) decreases
(c) remains constant                                                                                 (d) unpredictable

Answer: (c)

63. In a psychrometric process, the sensible heat added is 30 kJ/sec and latent heat added is 20 kJ/sec. The sensible heat factor for the process is
(a) 0.3                             (b) 0.6                             (c) 0.67                                    (d) 1.5

Answer: (b)

64. The bypass factor of cooling coil decreases with
(a) Decrease in fin spacing and increase in number of rows
(b) Increase in fin spacing and increase in number of rows
(c) Increase in fin spacing and decrease in number of rows
(d) Decrease in fin spacing and decrease in number of rows

Answer: (a)

65. The wet bulb depression is zero when relative humidity is
(a) 0%                          (b) 50%                                   (c) 75%                              (d) 100%

Answer: (d)

66. In the metal cutting process, the high cutting speed and large angle of the tool will result in the formation of
(a) continuous chips
(b) discontinuous chips
(c) continuous chips with built up edge
(d) chips of irregular shapes

Answer: (a)

67. Gear hobbing produces more accurate gears than milling, because in hobbing
(a) There is continuous indexing operation
(b) Both hob and work piece are rotating
(c) Pressure angle is larger than in milling
(d) A special multi-tooth cutter is used

Answer: (a)

68. The type of tool used in milling machine and broaching machine is
(a) single point cutting tool                              (b) two point cutting tool
(c) three point cutting tool                               (d) multi-point cutting tool

Answer: (d)

69. The Ackerman steering gear mechanism is preferred to Davis steering mechanism because
(a) Whole of the mechanism in the Ackerman steering gear is on the back of the front wheels

(b) The Ackerman steering gear consists of sliding pairs

(c) The Ackerman steering gear is most economical

(d) Davis steering gear consists of turning pairs

Answer: (a)

70. The natural frequency of free torsional vibrations of a shaft with torsional stiffness q and I is the mass moment of inertia of the disc attached to the end of the shaft is
(a) $2\pi \sqrt{\frac{q}{I}}$             (b) $2\pi \sqrt{qI}$           (c) $\frac{1}{2 \pi} \sqrt{\frac{q}{I}}$           (d) $\frac{1}{2 \pi} \sqrt{qI}$

Answer: (c)

71. A is a 3 × 4 real matrix and Ax = b is a consistent system of equations. The highest
possible rank of A is
(a) 1                                   (b) 2                                      (c) 3                                   (d) 4

Answer: (c)

72. The value of the quantity P where $P = \int_{0}^{1} xe^x dx$ is equal to
(a) 0                                  (b) 1                                  (c) e                                  (d) 1/e

Answer: (b)

73. The solution of the differential equation $\frac{dy}{dx} = \frac{-x}{y}$ at x = 1 and y = √3 is
(a) $x-y^2 = -2$                                                                                           (b) $x+y^2 = -4$
(c) $x^2-y^2 = 2$                                                                                        (d) $x^2+y^2 = 4$

Answer: (d)

74. The analytic function $f(z) = \frac{z-1}{z^2 +1}$ has singularities at
(a) 1 and – 1                                                                   (b) 1 and 1
(c) 1 and –i                                                                     (d) i and –i

Answer: (d)

75. X is a uniformly distributed random variable that takes value between 0 and 1. The value of E(X3) will be
(a) 0                                                                           (b) 1/8
(c) 1/4                                                                        (d) 1/2

Answer: (c)

76. The equation $e^x -1 = 0$ is required to be solved using Newton’s method with an initial guess of x0 = -1. Then after one step of Newton’s method, the estimate x1 of the solution will be
(a) 0.71828                                  (b) 0.36784                                  (c) 0.20587                                  (d) 0.0000

Answer: (a)

77. Laplace transform of $f (t) = t^2 sint$ is
(a) $\frac{3s^2-1}{(s^2+1)^3}$                                      (b) $\frac{2(3s^2-1)}{(s^2+1)^3}$

(c)$\frac{3s^2+1}{(s^2+1)^3}$                                      (b) $\frac{2(3s^2+1)}{(s^2+1)^3}$

Answer: (b)

78. The residue of a complex function $x(z) = \frac{1-2z}{z(z-1)(z-2)}$ at its poles are
(a) 1/2, 1/2 and 1                                                                          (b) 1/2, 1/2 and -1 
(c) 1/2, 1 and -3/2                                                                         (d) 1/2, -1 and 3/2 

Answer: (c)

79. The solution of the differential equation $\frac{dy}{dx} + y^2 =0 $ is
(a) $Y = \frac{1}{x+c}$                                                       (b)  $Y = \frac{-x^3}{3} +c$

(c)  $Y = ce^x$                                                                     (d) unsolvable as the equation is non-linear

Answer: (a)

80. A box contains 10 screws, 3 of which are defective. Two screws are drawn at random
with replacement. The probability that none of the two screws will be defective is:
(a) 100%                                  (b) 50%                                  (c) 49%                                  (d) none of these

Answer: (c)

[1-20]  [21-40] [41-60]  [61-80]

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• ISRO RAC 2018 Paper with solution
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SOLUTION OF THE WRITTEN TEST BY ISRO FOR SCIENTIST/ENGINEER 'SC' (REFRIGERATION & AIRCONDITIONING) [BE006 & BE010] -2017


41. A long glass cylinder of inner diameter 0.03 m and outer diameter 0.05 m carries hot fluid inside. If the thermal conductivity of glass is 1.05 W/mK, the thermal resistance per unit length of the cylinder is   
(a) 0.031                             (b) 0.077                             (c) 0.017                          (d) 0.77

Answer: (b)

42. In heat exchangers, degree of approach is defined as the difference between temperatures of
(a) cold water inlet and outlet
(b) hot medium inlet and outlet
(c) hot medium outlet and cold water inlet
(d) hot medium outlet and cold water outlet

Excluded for evaluation


43. In counter flow heat exchangers between two fluids,
(a) Both the fluids at inlet are in their hottest state
(b) Both the fluids at exit are in their hottest state
(c) One fluid in hottest state and the other in coldest state
(d) Any combination possible depending heat exchanger design

Excluded for evaluation

44. Log mean temperature difference in case of counter flow heat exchanger compared to
parallel flow heat exchanger will be :
(a) same                                                                        (b) more
(c) less                                                                          (d) depends on other factors

Answer: (b)

45. The emissive power of a body depends on:
(a) temperature                                                                            (b) wave length
(c) physical nature                                                                       (d) all of these

Answer: (d)

46.The outside diameter of hollow shaft is twice that of its inside diameter. The ratio of
its torque carrying capacity to that of solid shaft of the same material and same
outside diameter is :
(a) 15/16                    (b) 1/8                       (c) 3/4                    (d) 1/16

Answer: (a)

47. The designation M 33 × 2 of a bolt means
(a) Metric thread of 33 nos in 2 cm
(b) Metric thread with cross section area of 33 mm2
(c) Metric threads of 33 mm outside diameter and 2 mm pitch
(d) Bolt of 33 mm nominal diameter having 2 threads per cm.

Answer: (c)

48. The power transmitted by means of belt drives depends upon :
(a) Velocity of the belt
(b) Tension under which the belt is placed on the pulleys
(c) Arc of contact between the belt and the smaller pulley
(d) All of the above

Answer: (d)

49. The usual proportion for the width of the key used between shaft (of diameter d) and
hub of pulley for transmitting power is
(a) d/8                             (b) d/6                             (c) d/2                          (d) d/4

Answer: (d)

50. The helix angle for single helical gears ranges from
(a) 10° to 15°                     (b) 15° to 20°                    (c) 20° to 35°                      (d) 35° to 45°

Answer: (c)

51. The air standard efficiency of a standard otto cycle for compression ratio of 5.5 is
(a) 25%                        (b) 50%                           (c) 70%                          (d) 90%

Answer: (b)

52. The power actually developed by the engine cylinder of an I.C engine is known as
(a) Theoretical pressure                                                                       (b) Actual power
(c) Indicated power                                                                              (d) Break horse power

Answer: (c)

53. In a boiler, feed water is supplied per hour is 205 kg while coal fired per hour is 23 kg. Net enthalpy rise per kg of water is 145 kJ for conversion to steam. If the calorific value of coal is 2050 kJ/kg, boiler efficiency will be
(a) 78%                              (b) 74%                                      (c) 63%                                 (d) 58%

Answer: (c)

54. Which of the following power plant is least polluting and causing least environmental concern?
(a) Hydro electric plant                                                                       (b) solar power plant
(c) Nuclear plant                                                                                 (d) gas power plant

Answer: (b)

55. A diesel power station has fuel consumption of 0.2 kg per kWh. If the calorific value of
diesel is 11000 kcal per kg, overall efficiency of power station is
(a) 43.3%                            (b) 65.5%                              (c) 39.2%                             (d) 25.6%

Answer: (c)

56. In aircraft, air refrigeration is used because of
(a) low weight per ton of refrigeration                                                (b) high heat transfer rate
(c) low temperature at high altitudes                                                   (d) higher coefficient of performance

Answer: (a)

57. A reversible engine has ideal thermal efficiency of 30%. When it is used as refrigerating machine with all other conditions unchanged, the coefficient of performance will be
(a) 1.33                                (b) 2.33                                 (c) 3.33                                  (d) 4.33

Answer: (b)

58. In Vapour compression system, the condition of refrigerant before passing through the condenser is
(a) Saturated liquid                                                                               (b) wet vapour
(c) Dry saturated vapour                                                                       (d) superheated vapour

Answer: (d)

59. Lithium bromide in vapour absorption refrigeration system is used as
(a) refrigerant                                                                                (b) lubricant
(c) cooling medium                                                                       (d) absorbent

Answer: (d)

60. In refrigeration cycle, sub cooling occurs when
(a) Latent heat from refrigerant is removed
(b) Sensible heat from refrigerant is removed
(c) Refrigerant has low latent heat removed
(d) Refrigerant has high thermal conductivity

Answer: (b)

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