The emissivity (ε) can be defined as the ratio of, a. emissive power of real body to the emissive power of black body, b. emissive power of black body to the emissive power of real body, c. reflectivity of real body to emissive power of black body, d. reflectivity of black body to emissive power of real body. What is the formula for the thermal resistance (R) of a hollow cylinder of internal radius Ri, outer radius Ro and the length l ? What should be the Biot number to assume the body at uniform temperature? Let the two systems be brought into contact and be thermally insulated from their surroundings but not from each other. c. convection then conduction then convection, d. conduction then convection then conduction, Q194. Q149. Q34. Consider that heat transfer is taking place through a fin having circular cross-sectional area, one dimensionally as shown in figure. b. a. it does not provide any knowledge of the mechanism, b. it is necessary to know theoretically the variables which influence the phenomena, Q183. c. to maintain rate of heat transfer at a constant rate. For a learning problem, the Boltzmann machine is shown … Chemical Engineering
The intensity of mixing of fluid in natural convection is, a. more than the intensity of mixing of fluid in forced convection, b. less than the intensity of mixing of fluid in forced convection, c. equal to the intensity of mixing of fluid in forced convection, Q95. Which of the following is NOT a type of heat exchanger? By James McCaffrey. If ri and ro are the inner and outer radii of the the cylinder with insulating layer of some thickness and k is the thermal conductivity of the insulating material and hi and ho are the convective heat transfer coefficients of inside and outside fluids respectively. The principle of similarity or model law states that, a. if the ratios of linear dimensions, forces, velocities, etc. [Thermal resistance of heat exchanger with scaling] – [Thermal resistance of heat exchanger without scaling], c. [Thermal resistance of heat exchanger without scaling] x [Thermal resistance of heat exchanger with scaling], Q48. Q230. Q118. a. The value of thermal conductivity k depends upon, a. the material through which the heat is transferred, b. the intensity of heat energy which is being transferred, c. the area which is parallel to the heat transfer. What is the Boltzmann Machine? Q176. Since they were proposed more than twenty years ago, it has been demonstrated that they are capable of solving various problems such as optimisation problems 1, repairing degraded images 2, and learning interdependency among random variables 3.For optimisation problems, … How does the radiation heat transfer occur through perfect vacuum? Which of the following gases is/are not capable to emit and to absorb radiant heat energy? An oil cooler in a high performance engine has an outside surface area 0.12 m2 and a surface temperature of 65 degree Celsius. Boltzmann Machines is an unsupervised DL model in which every node is connected to every other node. If the emitted radiant energy is to be doubled, to what temperature surface of black body needs to be raised? Through unsupervised learning, we train the Boltzmann machine … The Stefan-Boltzmann law of thermal radiation is applicable for. A total of 853 people registered for this skill test. What is the correct formula for the total emissive power of the gray body (Eg)? Q204. 9. d. calculations are based on RMS values. Suppose a hot water is placed inside a closed metal vessel of thickness 5 mm. Some important points about Boltzmann Machine − It uses a recurrent structure. Taking ho as convection heat transfer coefficient of outer fluid. MCQ ON CLASSIFICATION OF MATERIAL,LATTICE IMPERFECTION,DEFORMATION,STRAIN HARDENING, Sample paper – Production Planning & Control – Set – A, Sample Paper – Product life cycle Management – Set – A, Sample Papers – Automobile Engineering – Set – A, Sample paper Machine Design – 2 – Set – A. There was also more than one machine that the Germans used to encrypt their messages: Enigma is one, but there was also the Lorenz machine (also eventually cracked at Bletchley Park). Below figure shows a natural convection heat transfer on a horizontal flat plate and fluid is above it. ML Types. Image Recognition – Recognizes and identifies peoples and objects in images as well as to understand content and context. Q114. Q157. a. as temperature of a body increases the wavelength of its emitted radiation also increases at its maximum emissive power, b. as temperature of a body increases the wavelength of its emitted radiation decreases at its maximum emissive power, c. as temperature of a body increases the wavelength of its emitted radiation does not change only at its maximum emissive power, Q213. The change of weight depends only on the behavior of the two units it connects, even though the change optimizes a global measure” … Which of the following bodies will not be able to emit radiation continuously? A Boltzmann machine is a network of symmetrically connected, neuron-like units that make stochastic decisions about whether to be on or off. Which method for estimation of convective heat transfer coefficient is mathematically simple and finds wide range of applications? Boltzmann machine refers to an association of uniformly associated neuron-like structure that make hypothetical decisions about whether to be on or off.Boltzmann Machine was invented by renowned scientist Geoffrey Hinton and Terry Sejnowski in 1985. When is the condensate flow almost always laminar? Below, You will find a list of Biology MCQ Questions as per the latest prescribed syllabus. How is the logarithmic mean temperature difference (LMTD) calculated for heat exchangers?Where, ΔTi= temperature difference between hot and cold fluid at inlet of heat exchanger, ΔTe = temperature difference between hot and cold fluid at exit of heat exchanger, Q47. The total radiation leaving a surface per unit time per unit surface area is called as, Q86. Which among the following factors is/are taken into account in calculation of radiation emitted or absorbed by a gas layer? The solved questions answers in this Test: Stefan Boltzmann Law quiz give you a good mix of easy questions and tough questions. Q175. Q25. How is the wavelength of radiation (λ) calculated, when propagation velocity (C) and frequency (ν) of the radiation is given? What is the effect of thermal conductivity k on fin effectiveness? Courses. Surface coating is suitable to maintain, Q205. Which of the following condition is correct for natural convection? Q231. a. fin is effective for smaller value of thermal conductivity k, b. fin is effective for larger value of thermal conductivity k, c. thermal conductivity k does not affect the fin effectiveness, a. the ratio of actual heat transferred from fin area to the heat which would be transferred if entire fin area was at base temperature, b. the heat which would be transferred if entire fin area was at base temperature to the ratio of actual heat transferred from fin area, c. the heat which would be transferred if entire fin area was at minimum temperature to the ratio of actual heat transferred from fin area, d. the ratio of actual heat transferred from fin area to the heat which would be transferred if entire fin area was at minimum temperature, Q44. In this paper, we develop a Boltzmann machine that is capable of modeling thermodynamic observables for physical systems in thermal equilibrium. Go to the next batch of dataset 3. 400 – 700 nm . Q224. Boltzmann machine is a network of symmetrically connected, neuronlike units that make stochastic decisions about whether to be on or off. Generally the external thermal resistance between the surface of the body and the environment is, a. less than the internal conduction resistance in the body, b. more than the internal conduction resistance in the body, c. same as the internal conduction resistance in the body. Q77. Restricted Boltzmann machines or RBMs for short, are shallow neural networks that only have two layers. Which of the following is/are example/s of pool boiling? Difference in areas of the two black bodies (A1– A2), b. Complete List of MCQ in Electronic Communication Systems by Kennedy Q167. a. convection heat transfer coefficient of natural convection is lower than the convection heat transfer coefficient of forced convection, b. convection heat transfer coefficient of natural convection is more than the convection heat transfer coefficient of forced convection, c. convection heat transfer coefficients in both natural and forced convection are the same for same system, Q94. Q17. Boltzmann machines • Boltzmann machines are Markov Random Fields with pairwise interaction potentials • Developed by Smolensky as a probabilistic version of neural nets • Boltzmann machines are basically MaxEnt models with hidden nodes • Boltzmann machines often have a similar structure to multi-layer neural networks • Nodes in a Boltzmann machine are (usually) … Q88. What is the formula for the analogous resistance for radiant heat exchange between two black bodies? a. the heat exchangers having small surface area per unit volume, b. the heat exchangers having large surface area per unit volume, c. the heat exchangers having small surface area per unit weight, d. the heat exchangers having large surface area per unit weight. What is kinematics viscosity of a fluid? Class 12; Class 11; Class 10; Class 9; Class 8; Class 7; Class 6; Class 5; Class 4; Class 3; Class 2; … If there are no externally induced flow velocities, then the Nusselt number (Nu) does not depend upon. a. when condensation occurs on a horizontal tube, b. when condensation occurs on a vertical bank of horizontal tubes, c. when condensation occurs on a vertical tube, d. when condensation occurs on a bunch of vertical tubes, Q140.The nuclei of bubbles form in nucleate boiling, when there is presence of. Q223.Which of the following fluid can be considered as an ideal fluid? Q50. Q220. a. the thermal resistance of convection increases with increase in outer radius of the hollow cylinder, b. the thermal resistance of convection decreases with increase in outer radius of the hollow cylinder, c. the thermal resistance of convection remains same with change in outer radius of the hollow cylinder. a. to maintain uniform spacing between tubes, Q54. What is the correct formula for the intensity of the emitted radiation of a black body (I) in terms of its emissive power (Eb)? Convective heat transfer coefficient doesn’t depend on, Q6. Boltzmann machines are used to solve two quite different computational problems. The Boltzmann machine, using its hidden nodes will generate data that we have not fed in. Which theory is widely used to determine the heat transfer coefficient for film condensation on surfaces? According to Stefan-Boltzmann law of thermal radiation. Which of the following dimensions is/are primary dimension/s? Introduction. The rate of radiant flux between two black bodies is analogous to. For the same heat transfer Q and same overall heat transfer coefficient Uo, surface area required for parallel flow operation is always, Q14. 8. c. between 20 to 120 MHz. Boltzmann machine that is capable of modelling thermodynamic observables for physical systems in thermal equilibrium. A Restricted Boltzmann machine is an algorithm useful for dimensionality reduction, classification, regression, collaborative filtering, feature learning and topic modeling. Q61 In greenhouse effect, the only infrared radiations, a. are allowed to exit from the interior surface, b. are not allowed to exit from the interior surface, Q62. This means every neuron in the visible layer is connected to every neuron in the hidden layer but the neurons in the … There are no output nodes! Difference in two shape factors (F12 – F21), c. Difference in emissive powers of the two black bodies (Eb1 – Eb2). In pool boiling, as soon as the temperature of heating surface reaches the boiling point of the liquid, heat transfer takes place. μ = absolute viscosity of the flowing fluid, (du / dy) = change in velocity of a layer per unit change in distance of that layer from the surface, A = area of the surface on which the fluid is flowing. If backlash occurs the analysis will be non-linear because the backlash can cause undesired oscillation in the feedback control system. The shear stress (τ) is directly proportional to (H x U0), b. Which of the following is NOT a type of condensation heat transfer process? In pool boiling process, the region after the natural convection in which the vapour bubbles form with increase in heat flux, is called as, Q171. When does the general heat conduction equation which gives the temperature distribution and conduction heat flow in an isotropic solid reduce to Laplace equation? In a Boltzmann machine, nodes make binary decisions with some bias. Deep Learning has made many practical applications of machine learning possible. When the layers of a composite wall are in series and the thermal resistance of every individual layer is given then the total thermal resistance of the composite wall is given by, a. substantiating lower value thermal resistance from higher value thermal resistance, c. multiplying both the thermal resistances, Q138. a. The heat is transferred from the hot water to atmospheric air. Infrared range for fiber optics . Q10. Which of the following temperature difference is safer than other to consider in designing of heat exchangers? The cooling of a metal ball of volume V, in large quantity of fluid is analogous to, a. discharging of battery in an electric system, b. discharging of capacitor in an electric system, c. generation of heat in resistor in an electrical system. Each set of nodes can act as either inputs or outputs relative to the other set. Suppose that a hot metal ball is immersed in cold water, then temperature distribution in the body depends upon, b. convective heat transfer from the body surface to water, Q28. The Biot number or Biot modulus is given by, a. the ratio of external convection resistance to the internal conduction resistance, b. the ratio of internal conduction resistance to the external convection resistance, c. multiplying internal conduction resistance and external convection resistance. What is critical heat flux in boiling heat transfer process? At a given temperature if wavelengths are changed, the quality of radiation per unit wavelength, c. will be changed sometimes but sometimes be constant. Q45. By continuing, I agree that I am at least 13 years old and have read and agree to the. Back in 2009, deep learning was only an emerging field. Consider a plane wall of finite thickness having energy generation in it. a. the conduction resistance in a ball should be very large compared to the convection resistance for heat transfer from surface of ball to water, b. the conduction resistance in a ball should be very small compared to the convection resistance for heat transfer from surface of ball to water, c. the conduction resistance in a ball should be equal to the convection resistance for heat transfer from surface of ball to water, Q27. Search Tutors Tutor Registration Tutor Login. Assume a natural convection heat transfer on a vertical flat plate surrounded by a fluid. So rate of heat flow by convection doesn’t depend on. Energy will flow from system A to system B because of. Deep Learning breaks down tasks in a way that makes all kinds of applications possible. A Boltzmann machine network involves learning a probability distribution from an original dataset and using it to make inference about unseen data. According to Stefan-Boltzmann law, q = α A T4. The learning algorithm is very slow in networks with many layers of feature detectors, but it can be made much faster by learning one layer of feature detectors at a time. Q133. What is the correct formula for the shear stress (τ) in a flowing fluid according to the Newton’s law of viscosity? h1 and h2 are the convection heat transfer coefficients on each side of wall. They are ductile c. They have low resilience and toughness d. All of the above ANSWER: They are ductile 2) Which of the following is a ferrous alloy? If a subset of the visible units are also clamped when sampling … They contain carbon more than 1.7% b. a. viscosity of a gas decreases with increase in temperature of gas, b. viscosity of a gas increases with increase in temperature of gas, c. viscosity of a gas is not affected by change in temperature of gas, a. increases with increase in liquid temperature, b. decreases with increase in liquid temperature, c. is not affected by the change in liquid temperature. a. the Biot number should be less than 0.1, b. the Biot number should be more than 0.1, c. the Biot number should be equal to 0.1. Forced Convective Heat Transfer (Part - 1), Convective Heat Transfer: One Dimensional (Part - 2), Convective Heat Transfer: One Dimensional (Part - 1). How does the gray body differ from the black body? The sum of the rate of heat energy generation in the wall and rate of energy transfer by conduction into the wall is equal to, a. rate of heat transfer by conduction out of the wall, b. rate of heat transfer by convection out of the wall, Q71. Q93. If you open up your chrome browser and start typing something, Google immediately provides … For the same heat transfer Q and same overall heat transfer coefficient Uo, surface area required for cross flow operation is always, a. the exit temperature of hot fluid is always equal to the exit temperature of cold fluid, b. the exit temperature of hot fluid is always less than the exit temperature of cold fluid, c. the exit temperature of hot fluid is always more than the exit temperature of cold fluid, d. we cannot predict comparison between exit temperatures of hot fluid and cold fluid, Q13. You missed on the real time test, but can read this ar… Linear Regression . A fin of uniform cross-section A and perimeter P has a base temperature Ts and it is exposed to fluid having temperature T∞ How is the temperature distribution in the fin given? What will be the total thermal resistance of the composite cylinder? The materials which have low thermal conductivity are called as ____________, Q229. Which of the following phases of designing of heat exchangers does designer consider corrosive nature of the fluid in? Which side is suitable to provide fins on to enhance heat transfer, when heat exchanges between gas and liquid? It is an algorithm which is useful for dimensionality reduction, classification, regression, collaborative filtering, feature learning, and topic modeling. One of the most basic Deep Learning models is a Boltzmann Machine, resembling a simplified version of the Multi-Layer Perceptron. Q227. Gases absorb and emit radiant energy, a. in all wavelengths over the entire spectrum (λ = 0 to ∞), b. only between narrow ranges of wavelengths. A gas layer absorbs incident radiation rapidly. Q123. What are Boltzmann Machines? What is the formula for maximum temperature (Tmax) at the center of a long and solid cylindrical electric wire of radius r? Q139. The critical radius of a hollow sphere having thermal conductivity k and ho as convecting heat transfer coefficient of outer fluid is given by. a. Below figure shows a natural convection heat transfer on a vertical flat plate surrounded by a fluid.What is the relation between the upward velocity of the fluid and the distance from the bottom of the plate, when plate is hotter that fluid? Today, it is being used for developing applications which were considered difficult or impossible to do till some time back. Training data consists of lists of items with some partial order specified between items in each list. What is the relation between convection heat transfer coefficients of natural convection and forced convection? Biology is the study of life. The literature of heat transfer generally recognizes distinct modes of heat transfer. Q200 . a. the arithmetic mean temperature difference is less than LMTD of a same heat exchanger, b. the arithmetic mean temperature difference is more than LMTD of a same heat exchanger, c. the arithmetic mean temperature difference and LMTD of a same heat exchanger are equal. a] Regression Algorithm. 90% of the incident radiation on glass in the visible range is. Usually, the flow arrangement of two fluids in compact heat exchangers is, Q72. The radiation from fusion of hydrogen, c. can be achieved on earth’s surface at high maintained temperature, Q55. What does the Kirchoff’s identity state? a. as the distance from the bottom of the plate increases, the upward velocity of the fluid near the plate surface decreases, b. as the distance from the bottom of the plate increases, the upward velocity of the fluid near the plate surface increases, c. the upward velocity of the fluid near the plate surface is same all over the plate. Select Your Semester Semester – 3 Semester – 5 Semester – 7... MCQ ON CLASSIFICATION OF MATERIAL,LATTICE IMPERFECTION,DEFORMATION,STRAIN HARDENING In terms of which of the following properties, metals are better than ceramics?a)... MODULE NO 2 – AC Circuits In a parallel circuit, we consider _____________ instead of impedance.a) Resistanceb) Capacitancec) Inductanced) Admittance... Education WordPress Theme By Themesglance. What is lumped heat capacity analysis? Then it will come up with data that will help us learn more about the machine at hand, in our case the nuclear power plant, to prevent the components that will make the machines function abnormally. a. the thermal resistance of conduction increases with increase in outer radius of the hollow cylinder, b. the thermal resistance of conduction decreases with increase in outer radius of the hollow cylinder, c. the thermal resistance of conduction remains same with change in outer radius of the hollow cylinder. a. Both long-range and short-range order … What will be the correct formula for net rate of radiant heat transfer between these surfaces?Where σ is a Stefan-Boltzmann constant. Q179. Solution : Q = (T2 – T1) A h = 0.12 (65-30) 45.4 = 190.68 W. Q5. Restricted Boltzmann Machines Using C#. Jan 17,2021 - Test: Stefan Boltzmann Law | 10 Questions MCQ Test has questions of Chemical Engineering preparation. a. all the incident radiation is not absorbed completely by gray body, b. the emissivity of the gray body is less than unity, c. the absorptivity of the gray body is less than unity, Q115. heat dissipation, and models the decrease in the entropy of a closed model - while the model starts with relatively low entropy (i.e. c. fins have same effectiveness in both the gas and liquid mediums. ANS: (a) Plank’s law gives the radiation flux for a (a) A Black body (b) A Grey body ( c) All types of bodies (d) None. The current in the electrical system is analogous to, a. the temperature in the heat transfer system, b. the heat flow in the heat transfer system, c. the thermal conductance in the heat transfer system, d. the thermal resistance in the heat transfer system. The layer above the laminar sublayer with some turbulence and still having importance of viscous action is called as, Q125. Poisson Regression. Boltzmann machines model the distribution of the data vectors, but there is a simple extension for modelling conditional distributions (Ackley et al., 1985). False True Answer:- False (25)What is the best Neural Network Model for Temporal Data? The learning algorithm is very slow in … The thermal resistances of two layers are R1 and R2 respectively. E = σ T4 = 5.67 * 10 –8 (400 + 273)4 = 11631.7 W/m2. Q21. " Well they certainly successfully encrypted their messages. Inspired by the success of Boltzmann machines based on classical Boltzmann distribution, we propose a new machine-learning approach based on quantum Boltzmann distribution of a quantum Hamiltonian. when there is a separation between 'hot' and 'cold' parts), it tends to the state of equilibrium, or high entropy (i.e. 6. c. Boltzmann’s constant. Mixing of fluid from regions of high temperature with the fluid from region of low temperature. Q159. Q102. Q73. Which of the following gases is/are responsible for global warming? In this machine, there are two layers named visible layer or input layer and hidden layer. Q203. They are a special class of Boltzmann Machine in that they have a restricted number of connections between visible and hidden units. Which of the following arrangements of fins is more effective for the same base area? Your email address will not be published. This region from the tube inlet to the point at which the boundary layers merge at the centerline is called as. What is the relation between emissive power of a real body (E) and emissive power of black body (Eb) when both are at same temperature? EduRev is a knowledge-sharing community that depends on everyone being able to pitch in when they know something. The buoyancy forces which give rise to the natural convection are called as, Q96. a. dynamic viscosity per unit volume of the fluid, b. dynamic viscosity per unit weight of the fluid, c. dynamic viscosity per unit density of the fluid. What is/are the limitation/s of dimensional analysis for estimation of convection heat transfer coefficient? 700 – 1200 nm . MCQ in Thermodynamics Part 4 as part of the General Engineering and Applied Sciences (GEAS) Board Exam. Q116. Q211. Q46. Large sized and heavy shell-and-tube heat exchangers are suitable for. Consider a fluid of height H, flowing on a stationary plate as shown in figure. [Heat generated in the element during time dt] + [Heat flow into the element during time dt] – [Heat flow out of the element during time dt], c. [Heat generated in the element during time dt] – [Heat flow into the element during time dt] – [Heat flow out of the element during time dt]. Q201. What is the correct formula for the Nusselt modulus or Nusselt number (Nu)? Restricted Boltzmann Machines As indicated earlier, RBM is a class of BM with single hidden layer and with a bipartite connection. (∂T/∂x2) + (∂T/∂y2) + (∂T/∂z2) = (∂T/∂t), b. Boltzmann Machines have a fundamental learning algorithm that permits them to find exciting … Consider the flow of fluid in a boundary layer. What is the sequence of the following tasks in a perceptron? Q161 When a composite wall of three layers in series having thermal resistances R1, R2 and R3 respectively, the heat transfer takes place normal to the surface of the layers. a. How is the total thermal resistance of the composite system calculated? The stochastic dynamics of a Boltzmann machine then allow it to sample binary state vectors that have low values of the cost function. In forced convection boiling process, a liquid flows through a tube with. 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