What is the advantage to use a multistage compression refrigeration system over a single stage compression system?

Answer: B) Increased strength and increased toughness

Explanation: Short fibre reinforcement has the major property of being tough and has high strength. Short fibre reinforcement is basically a process of addition of the short fibre to the thermoplastic materials to make the improvement in their quality and working by increasing their strength.They also have application in many areas because of their hardness property as well as being cost -effective. Thus, the option (b) is the correct option.

Answer:

b).the kinematic viscosity is absolute viscosity divided by mass density

Explanation:

Viscosity is a fluid property that offers resistance or obstruction to deformation or fluid flow.

Viscosity is of two types--

1. Absolute viscosity , μ

2. Kinematic viscosity, ν

Absolute viscosity :

Absolute viscosity is also called the dynamic viscosity. It is the internal resistance of the fluid to flow.

Kinematic viscosity :

Kinematic viscosity is the ratio of dynamic viscosity to the density of the fluid.

Absolute viscosity measures a fluid's internal friction, while kinematic viscosity is the ratio of absolute viscosity to the fluid's density. Viscosity affects how easily a liquid flows; higher intermolecular forces lead to higher viscosity, and this property is critical in fluid dynamics studies.

The difference between absolute viscosity and kinematic viscosity is that absolute viscosity, often referred to simply as viscosity, represents the fluid's resistance to flow and is a measure of the internal friction within the fluid. Kinematic viscosity, on the other hand, takes the fluid's density into account and is the ratio of the fluid's absolute viscosity to its density. While absolute viscosity is measured in units like Pascal-seconds (Pa·s), kinematic viscosity is measured in square meters per second (m²/s).

Viscosity is influenced by intermolecular forces; liquids that can flow easily, such as ethanol, have lower viscosities, while substances like motor oil with higher intermolecular forces have higher viscosities. Measuring the time it takes for steel balls to fall through a fluid or for a fluid to flow through a narrow tube helps determine the fluid's viscosity. In other words, absolute viscosity is concerned with the sheer strength and flow resistance of a fluid, while kinematic viscosity relates to the movement of the fluid under the force of gravity considering its volume.

Answer:

a) 4365 kJ

Explanation:

In any thermodynamic system, any heat change is accompanied by the change in temperature.  The relation between heat released/gained in a system and the temperature is:

Q=mcΔT

where,

Q is the amount of heat absorbed or released

m is the mass

ΔT is the change in temperature

c is called the specific heat.  

Specific heat is defined as heat gained by 1 unit mass of any sample to raise the temperature of the sample by 1 °Celsius.

Thus, from the question:

Mass of aluminum =5 kg

Final temperature = 1000°C

Initial temperature = 30°C

ΔT = (1000 -30)°C = 970°C

Specific heat of aluminum = 900 J/kg°C

Thus, Amount of heat required:

Q = 5 kg×900 J/kg°C×970°C = 4365000 J

The conversion of J into kJ is shown below:

1 J = 10⁻³ kJ

Thus,  Heat gained by aluminum =4365000 ×10⁻³ J = 4365 kJ

Answer:

yes it is possible

Explanation:

dislocation are if two type edge and screw dislocations

edge dislocation is a defect where an extra half plane is inside the lattice.

and screw dislocation is one in which can be assumed as the first half of the crystal slips over another.

These dislocation can coexist together where the line direction and burger vectors are  neither parallel nor perpendicular then at that condition both dislocation screw and edge will coexist

Answer: d) property tests

Explanation: Product service life can be referred as the life that define the service that can be provided by the product manufactured.The service life contains the testing and calculation of the product's quality, reliability, maintenance factor etc. These factors are known as the property of the product and so is calculated by the property test. Therefore option (d) is the correct option because other option does not define the factors for defining the product service life.

Answer:

Out of the four options provided

option A. actuator

is correct

Explanation:

An actuator is the only device out of the four mentioned devices that provides power and ensures the motion in it in order to manipulate the movement of the moving parts of the damper or a valve used whereas others like ratio regulator are used to regulate air or gas ratio and none mof the 3 remaining options serves the purpose

Resistance zero meaning superconductor, so True.

Answer:

(A) elemental, alloy, or compound thin films are deposited on to a bulk substrate

Explanation:

In film deposition there is process of depositing of material in form of thin films whose size varies between the nano meters to micrometers onto a surface. The material can be a single element a alloy or a compound.

This technology is very useful in semiconductor industries, in solar panels in CD drives etc

so from above discussion it is clear that option (a) will be the correct answer

Answer:690.21 mm of Hg

Explanation:

Given data

depth of lake[tex]\left (h\right )[/tex]=237.3m

density of lake water[tex]\left ( \rho\right )[/tex]=[tex]989kg/m^3[/tex]

acceleration due to gravity[tex]\left ( g\right )[/tex]=[tex]9.806m/s^2[/tex]

air  above water has a barometric  pressure of 29.83in of Hg=711.2 mm of Hg

Altitude correct for pressure=1.87in of Hg=47.5 mm of Hg

Absolute pressure above water =711.2-47.5mm of Hg=663.7 mm of Hg

Absolute pressure at bottom of Lake=Pressure at surface level +[tex]\left ( \rho \times g\times h\right )[/tex]

Absolute pressure at bottom of Lake=663.7+[tex]\frac{989\times 9.81\273.3}{10^{5}}[/tex]

Absolute pressure at bottom of Lake=690.21 mm of Hg

Answer:  Exploration includes plethora of activities and depend upon the kind  of exploration a person is doing. But most include some of the basic activities like research , investigation, planning and execution.

Suppose we want to explore new petroleum sites then we would have to start with studying the geography of that area, then according to our research we will analyse the hot spots or the sector where probability of finding of oil field is highest, post that appropriate man power is skilled professionals, tools and machinery will be brought at the site so that execution can take place.

Answer:

c) 1440 W

Explanation:

P = V*i = (12A)*(120V) = 1440W

According to the scenario, the amount of power that is dissipated by the heater is 1440 W. Thus, the correct option for this question is C.

Power may be defined as the amount of energy that is significantly transferred or converted per unit of time. The unit of power is the watt (W). It may be typically calculated with the help of the given formula:

According to the context of this question, the amount of power that is dissipated within the heater is calculated by the following formula:

Therefore, according to the scenario, the amount of power that is dissipated by the heater is 1440 W. Thus, the correct option for this question is C.

To learn more about Power, refer to the link:

https://brainly.com/question/1634438

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Answer:

Process 1:W=0

Process 2:W= -386.13 KJ  

Process 3:W= -468 KJ

Explanation:

Process 1:[tex]P_1=1 bar,V_1=2.6m^3[/tex]

Process 2:[tex]P_2=2.7bar,V_2=2.6m^3[/tex]

Process 3:[tex]V_3=1.5 m^3[/tex]

       [tex]V_4=0.5 m^3[/tex]

Process 1:

    Work (W)=0  ,because it is constant volume process.

Process 2:

It is constant temperature process so PV=C

[tex]P_2V_2=P_3V_3[/tex]

[tex]P_3=\dfrac{P_2V_2}{V_3}[/tex]

[tex]P_3=\dfrac{2.7\times 2.6}{1.5}[/tex]

[tex]P_3=4.68 [/tex]bar

So work in constant  temperature process

W=[tex]P_2V_2\ ln\dfrac{V_3}{V_2}[/tex]

W=[tex]270\times 2.6\ ln\dfrac{1.5}{2.6}[/tex]    (1 bar=100KPa)

W= -386.13 KJ  

Negative sign means it is compression process.

Process 3:

It is a constant pressure.

So work W=[tex]P_3(V_4-V_3)[/tex]

W=468(0.5-1.5) KJ

W= -468 KJ

Negative sign means it is compression process.

Answer:

(b) vpltage

Explanation:

we know the expression for voltage across the inductor V=L[tex]\frac{di}{dt}[/tex] which clearly shows voltage across the inductor is directly proportional to rate of change of current similarly current across the capacitor I=C[tex]\frac{dv}{dt}[/tex] from the expression we can see that current across the capacitor is directly proportional to rate of change of voltage. so from above discussion it is clear that response of an iductor to current is similar to response of capacitor to voltage

Understanding analytical methods is essential in systems engineering for problem-solving and system comprehension, with real-world applications in areas like environmental monitoring.

The importance of analytical methods in systems engineering management is crucial for problem-solving and comprehending the physics of the situation. Analytical methods help in selecting the right system and developing solutions efficiently. For instance, in the field of environmental monitoring programs, the use of analytical methods aids in assessing system health and trends accurately.

Answer:

It is True that in a quasi static process,  the system remains infinitesimally close to equilibrium state throughout the process.

Explanation:

The literal meaning of the word "quasi" is 'almost' and static is 'rest', so quasi static state means almost at rest state of the system

It can be further explained as the process, in thermodynamics which allows the system to be carried to slowly to maintain its equilibrium or to remain in its internal equilibrium state. Such a process is known as quasi-static process. Such processes also allow all isothermal and adiabatic processes to operate slowly so as not to disturb their internal equilibrium. this makes the system to always remain in thermal equilibrium

Answer:

T = 1.17 x [tex]10^{-3}[/tex] N-m

Explanation:

Given :

Gap between the two plates , dy = 1 mm

                                                  dy = 1 x [tex]10^{-3}[/tex] m

Angular velocity of the top plate , ω = 5 rad/s

Diameter of the plate, D = 20 cm

Radius of the plate, R = 10 cm

                                    = 0.1 m

Temperature of the kerosene = 40°C

Viscosity of kerosene at 40°C = 0.0015 Pa-s

Now let us take a small elemental ring of thickness dr at a radius r.

Therefore, area of this elemental ring of dr = 2πrdr

Now linear velocity at radius r = ω x r

                                                   5r m/s

Now applying Newtons law of viscosity we get,

Shear stress, τ = μ.[tex]\frac{du}{dy}[/tex]

   [tex]\Rightarrow \frac{F_{s}}{A}=\mu .\frac{du}{dy}[/tex]

  [tex]\Rightarrow \frac{F_{s}}{A}=\mu .\frac{5r-0}{1\times 10^{-3}}[/tex]

  [tex]\Rightarrow \frac{F_{s}}{A}=\mu \times 10^{3}\times 5r[/tex]

  [tex]F_{s}=\mu \times 10^{3}\times 5r\times 2\pi rdr[/tex]

  [tex]F_{s}=5 \times 10^{3}\times \mu \times r\times 2\pi rdr[/tex]

  [tex]F_{s}=\frac{18849}{400}\times r^{2}dr[/tex]

Now we know torque due to small strip,

 dT = [tex]F_{s}[/tex] x r

 dT = [tex]\frac{18849}{400}\times r^{3}dr[/tex]

Therefore total torque for r=0 to r=R can be calculated. So by integrating,

[tex]\int dT=\int_{0}^{R}\frac{18849}{400}\times r^{3}dr[/tex]

[tex]T = \frac{18849}{400}\times \frac{R^{4}}{4}[/tex]

[tex]T = 47.1225\times \frac{0.1^{4}}{4}[/tex]

T = 1.17 x [tex]10^{-3}[/tex] N-m

Answer:

0.740833917 ton/hr

Explanation:

Given:

Cooling load, 8890.007 Btu/hr = 2.605 kW

Room size = 180 [tex]ft^{2}[/tex]

According to the thumb rule

1 ton of refrigerant = 12000Btu

Hence for 8890.007 Btu/hr,

the mass flow rate of the refrigerant is =8890.007 / 12000

                                                                = 0.740833917 ton per hr

Hence, mass flow rate is 0.740833917 ton/hr

Answer:

Explanation:

Molten metal is forced through a small orifice and is shatter by a jet of compressed air,inert gas .

In Atomization, the particles shape is analysed  by the rate of solidification and varies from spherical to highly irregular shape.

oxide of metals are transformed to pure metal powder when undefended to under melting point gases results in a product of spongy material.

It is used for Iron,copper,tungsten,Nickel etc.

Answer:

(1)Atomizing process

 (2)Gaseous reduction

Explanation:

The first step in powder metallurgy is the production of powder,because the property of the final product depends on the powder.

The methods for the production of powder are as follow

                    (1)Atomizing process

                    (2)Gaseous reduction

(1)Atomizing process:

     In the Atomizing process the molten metal is passing through an orifice into a stream of inert gas.Due to this rapid cooling of metal occurs and then it will in very fine particle .

(2)Gaseous reduction:

In this process powder is producing by grinding of metallic oxide to a fine state,after that reducing it by carbon mono oxide.

Answer: A

Explanation:

Microchips are made out of silicone witch is a polymer.

Answer:

its a

Explanation:

Answer:

c). surface pressure and depth

Explanation:

We know that fluid pressure is measured in two different ways namely --

1. Pressure measured above complete vacuum or absolute zero is called Absolute Pressure.

2.Pressure measured above atmospheric pressure is called Gauge Pressure.

In the figure below, we can find the pressure at the point A in the static fluid inside the tank which is at a depth of h from the water surface.

Let the atmospheric pressure which is acting on the water surface be [tex]P_{atm}[/tex].

Let ρ be the density of water and g be the acceleration due to gravity.

Therefore we know that pressure at a point in a fluid is

P = ρ[tex]\times[/tex]g[tex]\times[/tex]h

Therefore total pressure acting on the point A in a fluid is

[tex]P_{tot}[/tex] = [tex]P_{atm}[/tex] + P

[tex]P_{tot}[/tex] = [tex]P_{atm}[/tex] + ρ[tex]\times[/tex]g[tex]\times[/tex]h

Thus, pressure at a point A in a static fluid depends on the surface pressure and the depth of the point from the free surface.

Answer:

a)True

Explanation:

According to Fourier's law,It states that Heat transfer is directly proportionate to the temperature gradient.For unidirectional conduction

    [tex]q''\alpha\dfrac{dT}{dx}[/tex]

Where q'' is the heat flux.

When This directly proportionate is remove then one constant will on that place and that constant is called conductivity of material.

  [tex]q''=K\dfrac{dT}{dx}[/tex]

So total heat transfer Q

      [tex]Q=KA\dfrac{dT}{dx}[/tex]

When conductivity (K) of material is not constant

K=[tex]K_0[/tex](a+bT)  where a,b are constant.

So from the above expression we can say that heat transfer in material will depend on temperature difference,material property and on on geometry of object.

Answer:

96.1%

Explanation:

We know that lift force

[tex]F_L=\dfrac{1}{2}C_L\rho AV^2[/tex]

                                                                    ------------(1)

Where [tex]C_L[/tex] is the lift force coefficient .

          ρ is the density of fluid.

         A is the area.

        V is the velocity.

Now when speed is increased by 2 % and all other parameter remains constant except [tex]C_L[/tex] .

Let;s take new value of lift force coefficient is [tex]C_L'[/tex] .

[tex]F_L=\dfrac{1}{2}C_L'\rho A(1.02V)^2[/tex]

                                                                         -----------(2)

Now from equation 1 and 2

[tex]C_L\times V^2=C_L'\times1.0404 V^2[/tex]

⇒[tex]C_L'=0.961C_L[/tex]

So we can say that revised value of  lift force coefficient is 96.1% of original value.

Answer:

mass density of fluid is = 1000*0.721 = 721 kg/m3

so option e is correct

11. option e is correct ( a and b).

Explanation:

given data

specific gravity of fluid  = 0.721

we know that mas density of water [tex]{\gamma _{water}}[/tex] is 1000 kg/m3

specific gravity of water is given as S.G

[tex]S.G = \frac{\gamma _{fluid} }{\gamma _{water}}[/tex]

mass density of fluid is = 1000*0.721 = 721 kg/m3

A fluid is combined form used for gas and liquid.

it offer negligible resistance to  stress (shear stress)

Answer:

(b) kJ/kg

Explanation:

The ratio of amount of energy required to change the temperature of the substance by certain magnitude and this magnitude of temperature change is known as heat capacity of the substance.

The expression for Heat capacity is:

C=E/ΔT

Where,

C is the Heat capacity

E is the energy absorbed/released

ΔT is the change in temperature

The SI unit of heat capacity is J/K.

(a) Tons represents the unit of mass (1000 kg)

(c) kW represents the unit of power (1000 W)

(d) Btu represents the unit of heat (1055 J)

The units from the options that can be a unit of heat capacity is (b) kJ/kg.

Answer:

11.34 g/cm3

Explanation:

At room temperature, where it is in a solid state, it is 11.34 [tex]\frac{g}{cm^{3}}[/tex]. While at melting temperature, at 327.5 ° C, it is 10.66 [tex]\frac{g}{cm^{3}}[/tex]

Answer:

C.30°

Explanation:

Given that compound swivel base is set on 60° at the lathe center line index.

We need to find reading on cross slide index

We know that relationship between center line index and cross slide index in angle 2∝=β

Where ∝ Angle of swivel and β is the reading on cross line index.

So by using above  relationship between center line index and cross slide index  

2∝=60°⇒∝=30°

So our option is C.

Answer:

The correct answer is option B i.e. 86 f

Explanation:

The freezing point of water is 32°f and boiling point is 212 °f.  Thus difference in boiling and freezing point is exactly come out to be 180°. therefore fahrenheit scale is 1/180 interval of both scale ( freezing and boiling point)

given data:

absolute temperature is 303 K

We know by general formula of temperature in fahrenheit

°F = [tex]\frac{9}{5}[/tex] × (K-273) +32

°F = [tex]\frac{9}{5}[/tex] × (303-273) +32

°F =  86 F

Answer:

From the multiple choices provided for the action of capacitor, option

(d) stores electrical energy

is correct

Explanation:

A capacitor is basically a two terminal device that stores electrical energy in the electric field in its vicinity. It is apassive element.

The property of a capacitor to store electrical energy or the effect of a capacitor is known as its capacitance. The capacitance of a capacitor is given by:

Q = CV or C = [tex]\frac{Q}{V}[/tex]

It is originally known as condensor and it can be said that a capacitor adds capacitance to the circuit.

Answer:

a) True

Explanation:

Roller can provide reaction for push support but it can not provide reaction for pull support.  

From the free body diagram of roller and hinge support we can easily find that ,Roller providing vertical reaction and can not provide horizontal reaction.

On the other hand hinge support can provide reaction in both the direction.

So we can say that roller can not proved reaction for pull support.

True.

An intrinsic semiconductor is a pure semiconductor. At room temperature it behaves as an insulator because it only has a few free and hollow electrons due to thermal energy.

In an intrinsic semiconductor there are also electron fluxes and gaps, although the total current resulting is zero. This is because the action of thermal energy produces free electrons and gaps in pairs, so there are as many free electrons as there are gaps with which the total current is zero.