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ME-352-QBK

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Btech (kcs-701)

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MET308 Comprehensive Examinations

Question Bank

Table of Contents

MET203- MECHANICS OF FLUIDS

MET205- METALLURGY AND MATERIAL SCIENCE

MET202- ENGINEERING THERMODYNAMICS

MET204– MANUFACTURING PROCESS

MET301- MECHANICS OF MACHINERY

MET202- ENGINEERING THERMODYNAMICS

  1. Which of the following variables controls the physical properties of a perfect gas (a) pressure (b) temperature (c) volume (d) all of the above (e) atomic mass. Ans: d

  2. Which of the following laws is applicable for the behavior of a perfect gas (a) Boyle's law (b) Charles'law (c) Gay-Lussac law (d) all of the above (e) Joule's law. Ans: d

  3. The unit of temperature in S. units is (a) Centigrade (b) Celsius (c) Fahrenheit (d) Kelvin (e) Rankine. Ans: d

  4. The unit of mass in S. units is (a) kilogram (b) gram (c) tonne (d) quintal (e) newton. Ans: a

  5. The unit of time in S. units is (a) second (b) minute (c) hour (d) day (e) year. Ans: a

encountered temperature limits. (a) 02, N2, steam, C (b) Oz, N2, water vapour (c) S02, NH3, C02, moisture (d) 02, N2, H2, air (e) steam vapours, H2, C02. Ans: d

  1. The unit of pressure in S. units is (a) kg/cm (b) mm of water column (c) pascal (d) dynes per square cm (e) bars Ans: c

  2. A closed system is one in which (a) mass does not cross boundaries of the system, though energy may do so (b) mass crosses the boundary but not the energy (c) neither mass nor energy crosses the boundaries of the system (d) both energy and mass cross the boundaries of the system (e) thermodynamic reactions take place. Ans: a

  3. Temperature of a gas is produced due to (a) its heating value (b) kinetic energy of molecules (c) repulsion of molecules (d) attraction of molecules (e) surface tension of molecules. Ans: b

  4. According to kinetic theory of gases, the absolute zero temperature is attained when (a) volume of the gas is zero (b) pressure of the gas is zero (c) kinetic energy of the molecules is zero (d) specific heat of gas is zero (e) mass is zero. Ans: c

  5. Kinetic theory of gases assumes that the collisions between the molecules are (a) perfectly elastic (b) perfectly inelastic (c) partly elastic (d) partly inelastic (e) partly elastic and partly inelastic. Ans: a

  6. The pressure'of a gas in terms of its mean kinetic energy per unit volume E is equal to (a) E/ (b) E/ (c) 3E/ (d)2E/ (e) 5E/4. Ans: d

  7. Kinetic energy of the molecules in terms of absolute temperature (T) is proportional to (a) T (b) j (c) J (d) Vr (e) 1/Vr. Ans: a

  8. Superheated vapour behaves (a) exactly as gas (b) as steam (c) as ordinary vapour (d) approximately as a gas (e) as average of gas and vapour. Ans: d

  9. Absolute zero pressure will occur (a) at sea level (b) at the center of the earth (c) when molecular momentum of the system becomes zero (d) under vacuum conditions (e) at a temperature of - 273 °K Ans: c

  10. No liquid can exist as liquid at (a) - 273 °K (b) vacuum (c) zero pressure (d) centre of earth (e) in space. Ans: c

  11. The unit of power in S. units is (a) newton (b) pascal (c) erg (d) watt (e) joule. Ans: d

(a) all ranges of pressures (b) only small range of pressures (c) high range of pressures (d) steady change of pressures (e) atmospheric conditions. Ans: b

  1. Which law states that the internal energy of a gas is a function of temperature (a) Charles' law (b) Joule's law (c) Regnault's law (d) Boyle's law (e) there is no such law. Ans: b

  2. The same volume of all gases would represent their (a) densities (b) specific weights (c) molecular weights (d) gas characteristic constants (e) specific gravities. Ans: c

  3. Which law states that the specific heat of a gas remains constant at all temperatures and pressures (a) Charles' Law (b) Joule's Law (c) Regnault's Law (d) Boyle's Law (e) there is no such law. Ans: c

  4. An open system is one in which (a) mass does not cross boundaries of the system, though energy may do so (b) neither mass nor energy crosses the boundaries of the system (c) both energy and mass cross the boundaries of the system (d) mass crosses the boundary but not the energy (e) thermodynamic reactions do not occur. Ans: c

  5. According to which law, all perfect gases change in volume by l/273th of their original volume at 0°C for every 1°C change in temperature when pressure remains constant (a) Joule's law (b) Boyle's law (c) Regnault's law (d) Gay-Lussac law (e) Charles' law. Ans: e

  6. Gases have (a) only one value of specific heat (b) two values of specific heat (c) three values of specific heat (d) no value of specific heat (e) under some conditions one value and sometimes two values of specific heat. Ans: b

  7. According to Avogadro's Hypothesis (a) the molecular weights of all the perfect gases occupy the same volume under same conditions of pressure and temperature (b) the sum of partial pressure of mixture of two gases is sum of the two (c) product of the gas constant and the molecular weight of an ideal gas is constant (d) gases have two values of specific heat (e) all systems can be regarded as closed systems. Ans: a

  8. Extensive property of a system is one whose value (a) depends on the mass of the system like volume (b) does not depend on the mass of the system, like temperature, pressure, etc. (c) is not dependent on the path followed but on the state (d) is dependent on the path followed and not on the state (e) is always constant. Ans: a

  9. Work done in a free expansion process is (a) + ve (b) -ve (c) zero (d) maximum (e) minimum. Ans: c

  10. The statement that molecular weights of all gases occupy the same volume is known as (a) Avogadro's hypothesis (b) Dalton's law (c) Gas law (d) Law of thermodynamics (e) Joule's law. Ans: a

  11. To convert volumetric analysis to gravimetric analysis, the relative volume of each constituent of the flue gases is (a) divided by its molecular weight (b) multiplied by its molecular weight (c) multiplied by its density (d) multiplied by its specific weight (e) divided by its specific weight.

Ans: d

  1. Which of the following is the property of a system (a) pressure and temperature (b) internal energy (c) volume and density (d) enthalpy and entropy (e) all of the above. Ans: e

  2. On weight basis, air contains following parts of oxygen (a) 21 (b) 23 (c) 25 (d) 73 (e) 79. Ans: b

  3. Which of the following is not the intensive property (a) pressure (b) temperature (c) density (d) heat (e) specific volume. Ans: d

  4. Which of the following items is not a path function (a) heat (b) work (c) kinetic energy (d) vdp (e) thermal conductivity. Ans: e

  5. Work done in an adiabatic process between a given pair of end states depends on (a) the end states only (b) particular adiabatic process (c) the value of index n (d) the value of heattransferred (e) mass of the system. Ans: a

  6. Heat and work are (a) point functions (b) system properties (c) path functions (d) intensive properties (e) extensive properties.

Ans: c

  1. Which of the following parameters is constant for a mole for most of the gases at a given temperature and pressure (a) enthalpy (b) volume (c) mass (d) entropy (e) specific volume. Ans: b

  2. The value of n = 1 in the polytropic process indicates it to be (a) reversible process (b) isothermal process (c) adiabatic process (d) irreversible process (e) free expansion process. Ans: b

  3. Solids and liquids have (a) one value of specific heat (ft) two values of specific heat (c) three values of specific heat (d) no value of specific heat (e) one value under some conditions and two values under other conditions. Ans: a

  4. A perfect gas at 27°C is heated at constant pressure till its volume is double. The final temperature is (a) 54°C (b) 327°C (c) 108°C (d) 654°C (e) 600°C Ans: b

  5. Curve A in Fig. 1 compared to curves B and C shows the following type of expansion (a) pV"=C (b) isothermal (c) adiabatic (d) free expansion (e) throttling. Ans: b

  6. If value of n is infinitely large in a polytropic process pV" = C, then the process is known as constant (a) volume (b) pressure (c) temperature (d) enthalpy (e) entropy.

(e) does not exist. Ans: c

  1. If a certain amount of dry ice is mixed with same amount of water at 80°C, the final temperature of mixture will be (a) 80°C (b) 0°C (c) 40°C (d) 20°C (e) 60°C. Ans: b

  2. The basis for measuring thermodynamic property of temperature is given by (a) zeroth law of thermodynamics (b) first law of thermodynamics (c) second law of thermodynamics (d) third law of thermodynamics (e) Avogadro's hypothesis. Ans: a

  3. One watt is equal to (a) 1 Nm/s (b) 1 N/mt (c) 1 Nm/hr (d) 1 kNm/hr (e) 1 kNm/mt. Ans: a

  4. Work done is zero for the following process (a) constant volume (b) free expansion (c) throttling (d) all Of the above (e) none of the above. Ans: d

  5. For which of the following substances, the gas laws can be used with minimum error (a) dry steam (b) wet steam (c) saturated steam (d) superheated steam (e) steam at atmospheric pressure. Ans: d

  6. In a non-flow reversible process for which p = (- 3V+ 15) x 105N/m2,V changes from 1 m to 2 m3. The work done will be about (a) 100 xlOO5 joules (b) lxlO5 joules

(c) 10 xlO5 joules (d) 10 xlO5 kilo joules (e) 10xl04ki\ojoules. Ans: c

  1. The value of the product of molecular weight and the gas characteristic constant for all the gases in M.K. unit is (a) 29 kgfm/mol°K (b) 8314kgfm/mol°K (c) 848kgfm/mol°K (d) 427kgfm/mol°K (e) 735 kgfm/mol°K. Ans: c

  2. On volume basis, air contains following parts of oxygen (a) 21 (b) 23 (c) 25 (d) 77 (e) 79. Ans: a

  3. Universal gas constant is defined as equal to product of the molecular weight of the gas and (a) specific heat at constant pressure (b) specific heat at constant volume (c) ratio of two specific heats (d) gas constant (e) unity. Ans: d

  4. The value of the product of molecular weight and the gas characteristic constant for all the gases in S. units is (a) 29 J/kmol°K (b) 83/kmol°K (c) 848J/kmol°K (d) All J/kmol °K (e) 735 J/kmol °K. Ans: b

  5. For which of the following substances, the internal energy and enthalpy are the functions of temperature only (a) any gas (b) saturated steam (c) water (d) perfect gas (e) superheated steam. Ans: d

  6. In order that a cycle be reversible, following must be satisfied (a) free expansion or friction resisted expansion/compression process should not be encountered (b) when heat is being absorbed, temperature of hot source and working sub¬stance should be same (c) when beat is being rejected, temperature of cold source and working sub-stance should be same (d) all of the above (e) none of the above. Ans: d

  7. For a thermodynamic process to be reversible, the temperature difference between hot body and working substance should be (a) zero (b) minimum (d) maximum (d) infinity (e) there is no such criterion. Ans: a

  8. Minimum work in compressor is possible when the value of adiabatic index n is equal to (a) 0. (b) 1 (c) 1. (d) 1. (e) 2. Ans: b

  9. Molecular volume of any perfect gas at 600 x 103 N/m2 and 27°C will be (a) 4/kgmol (b) 400 m3/kg mol (c) 0 m3/kg mol (d) 41 m3/kg mol (e) 417m3/kgmol. Ans: a

  10. A gas is compressed in a cylinder by a movable piston to a volume one-half its original volume. During the process 300 kJ heat left the gas and internal energy remained same. The work done on gas in Nm will be (a) 300 Nm (b) 300,000 Nm (c) 30 Nm (d) 3000 Nm (e) 30,000 Nm. Ans: b

  11. The more effective way of increasing efficiency of Carnot engine is to (a) increase higher temperature (b) decrease higher temperature (c) increase lower temperature (d) decrease lower temperature

(e) keep lower temperature constant. Ans: d

  1. Entropy change depends on (a) heat transfer (b) mass transfer (c) change of temperature (d) thermodynamic state (e) change of pressure and volume. Ans: a

  2. For reversible adiabatic process, change in entropy is (a) maximum (b) minimum (c) zero (d) unpredictable (e) negative. Ans: c

  3. Isochoric process is one in which (a) free expansion takes place (b) very little mechanical work is done by the system (c) no mechanical work is done by the system (d) all parameters remain constant (e) mass and energy transfer do not take place. Ans: c

  4. According to first law of thermodynamics (a) work done by a system is equal to heat transferred by the system (b) total internal energy of a system during a process remains constant (c) internal energy, enthalpy and entropy during a process remain constant (d) total energy of a system remains constant (e) entropy of a system remains constant. Ans: d

  5. Energy can neither be created nor destroyed but can be converted from one form to other is inferred from (a) zeroth low of thermodynamic (b) first law of thermodynamics (c) second law to thermodynamics (d) basic law of thermodynamics (e) claussius statement. Ans: b

  6. First law of thermodynamics furnishes the relationship between (a) heat and work (b) heat, work and properties of the system (c) various properties of the system (d) various thermodynamic processes

(c) does not enable to determine change in entropy (d) provides relationship between heat, work and internal energy (e) all of the above. Ans: e

  1. Addition of heat at constant pressure to a gas results in (a) raising its temperature (b) raising its pressure (c) raising its volume (d) raising its temperature and doing external work (e) doing external work. Ans: d

  2. Carnot cycle has maximum efficiency for (a) reversible engine (b) irreversible engine (c) new engine (d) petrol engine (e) diesel engine. Ans: a

  3. Measurement of temperature is based on (a) thermodynamic properties (b) zeroth law of thermodynamics (c) first law of thermodynamics (d) second law of thermodynamics (e) joule's law. Ans: b

  4. Carnot cycle efficiency depends upon (a) properties of the medium/substance used (b) condition of engine (c) working condition (d) temperature range of operation (e) effectiveness of insulating material around the engine. Ans: d

  5. Carnot cycle efficiency is maximum when (a) initial temperature is 0°K (b) final temperature is 0°K (c) difference between initial and final temperature is 0°K (d) final temperature is 0°C (e) initial temperature is minimum possible. Ans: b

  6. An engine operates between temperatures of 900°Kandr2 and another engine between T2 and 400°K For both to do equal work, value of T2 will be (a) 650°K

(b) 600°K (c) 625°K (d) 700°K (e) 750°K. Ans: a

  1. If heat be exchanged in a reversible manner, which of the following property of the working substance will change accordingly (a) temperature (b) enthalpy (c) internal energy (d) entropy (e) all of the above. Ans: d

  2. If a system after undergoing a series of processes, returns to the initial state then (a) process is thermodynamically in equilibrium (b) process is executed in closed system cycle (c) its entropy will change due to irreversibility (d) sum of heat and work transfer will be zero (e) no work will be done by the system. Ans: d

  3. Which of the following represents the perpetual motion of the first kind (a) engine with 100% thermal efficiency (b) a fully reversible engine (c) transfer of heat energy from low temperature source to high temperature source (d) a machine that continuously creates its own energy (e) production of energy by temperature differential in sea water at different levels. Ans:

  4. An actual engine is to be designed having same efficiency as the Carnot cycle. Such a proposition is (a) feasible (b) impossible (c) possible (d) possible, but with lot of sophistications (e) desirable. Ans: d

  5. A manufacturer claims to have a heat engine capable of developing 20 h. by receiving heat input of 400 kcal/mt and working between the temperature limits of 227° C and 27° C. His claim is (a) justified (b) not possible (c) may be possible with lot of sophistications (d) cost will be very high (e) theroretically possible. Ans: b

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ME-352-QBK

Course: Btech (kcs-701)

478 Documents
Students shared 478 documents in this course

University: APJ Abdul Kalam Technological University

Was this document helpful?
MESITAM MET 308
MET308 Comprehensive Examinations
Question Bank
Table of Contents
MET203- MECHANICS OF FLUIDS
MET205- METALLURGY AND MATERIAL SCIENCE
MET202- ENGINEERING THERMODYNAMICS
MET204 MANUFACTURING PROCESS
MET301- MECHANICS OF MACHINERY

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