In an air compressor the compression takes place at a constant internal energy and 50KJ of heat are rejected to the cooling water for every Kilogram of air. Calculate the work input for the compression stroke per kilogram of air?

In vibration analysis, damping cannot always be disregarded. This is especially the case when the system is excited near the resonance frequency.

Answer:

Thermosetting polymers are polymers that becomes soft and pliable when heated is false

Answer and explanation :

Fluid distribution is a new technique to produce and to transmit power from one place to other its play a major role in power distribution it is a process of using fluid (any type of fluid as oil or water ) under pressure to generate to control or to transmit  

fluid power system is divided into two types

Given:

max displacement, A = 3.2 m

f= 50 Hz

at t = 0, displacement, d = 150 cm = 1.5 m

Solution:

Displacement in the general form is represented by:

d = Asin(ωt ± α)

d = 3.2sin(2πft ± α)

d = 3.2sin(100πt ± α)                    

where,

A = 3.2 m,            

ω = 2πf = 100π

Now,

at t = 0,

1.5 = 3.2sin(100π(0) ± α )

1.5 = 3.2sinα

sin α = [tex]\frac{1.5}{3.2}[/tex] = 0.4687

α = [tex]sin^{-1}(0.46875)[/tex] = 27.95° = 0.488 radian

Now, we can express displacement in the form of 'Asin(wt + α)' as:

d = 3.2sin(100πt ± 0.488 )

Answer:

1 ton refrigeration =3.517 kJ/s = 3.517 kW

Explanation:

Refrigeration capacity is defined at the  measure of the effective cooling capacity of a refrigerator which is  expressed in Btu per hour or in tons.

1 ton capacity is a unit of air conditioning and refrigeration which  measure the capacity of air conditioning and refrigeration unit.

One ton  is equal to removal of 3025kcal heat per hour

1 ton refrigeration = 200 Btu/min = 3.517 kJ/s = 3.517 kW = 4.713 HP

Answer:d

Explanation:

Melt spinning is the economical process to manufacture synthetic fiber.

Major limitations of Melt spinning is

Although it is very efficient method as it does not create any environment Pollution

Answer:

The correct option is : b. Brass

Explanation:

The cutting tool materials are materials that are used to make cutting tools. The cutting tools serve a very important roles in the machinery such as milling cutters. The materials used for making the cutting tools must be tougher and harder than the material that is being cut, at all temperatures.

Some of the cutting tool materials are tool steels (carbon tool steel and high speed steel), cemented carbides and super hard materials such as diamond.

Therefore, brass is not used for making cutting tool.

Answer:

(a)[tex]s_2-s_1[/tex]= -0.098 KJ/kg-K

(b)P= 29.8 KW

(c) [tex]S_{gen}[/tex]= -0.098 KW/K  

Explanation:

[tex]V_1=1m^3/kg,V_2=0.71m^3/kg,[/tex] mass flow rate= 1 kg/s.

T=25°C

Air treating as ideal gas

(a)

We know that entropy change for ideal gas between two states

 [tex]s_2-s_1=mC_v\ln \frac{T_2}{T_1}+mR\ln \frac{V_2}{V_1}[/tex]

Given that this is isothermal process so

 [tex]s_2-s_1=mR\ln \frac{V_2}{V_1}[/tex]

[tex]s_2-s_1=1\times 0.287\ln \frac{0.71}{1}[/tex]

[tex]s_2-s_1[/tex]= -0.098 KJ/kg-K

(b)

Power required

[tex]P=\dot{m}T\Delta S[/tex]

[tex]P=1\times (273+25)(s_2-s_1)[/tex]

[tex]P=1\times (273+25)(-0.098)[/tex]

P= -29.8 KW        (Negative sign means it is compression process.)

(c)

Rate of entropy generation [tex]S_{gen}[/tex]

[tex]S_{gen}=\dot{m}T\Delta S[/tex]  

[tex]S_{gen}[/tex]=1(-0.098)

 [tex]S_{gen}[/tex]= -0.098 KW/K  

To hoist a load 6 meters in 1.5 seconds, the cable must be drawn in by the motor at a constant speed of 4 meters per second.

The question asks to determine the constant speed at which a cable must be drawn in by a motor to hoist a load to a certain height within a given time frame. This can be solved by understanding the basic concepts of distance, speed, and time.

To find the constant speed, we use the formula:
Speed = Distance / Time. In this case, the distance is 6 meters (the height the load needs to be hoisted) and the time is 1.5 seconds.

Plugging the numbers into the formula gives:
Speed = 6m / 1.5s = 4 m/s.

Therefore, the cable must be drawn in by the motor at a constant speed of 4 meters per second to hoist the load 6 meters in 1.5 seconds.

Answer:

275 Kelvin

Explanation:

Coefficient of Performance=11

[tex]T_H=\text {Absolute Temperature of high temperature reservoir=300 K}[/tex]

[tex]T_L=\text {Absolute Temperature of low temperature reservoir}[/tex]

[tex]\text {Coefficient of performance for carnot cooler}\\=\frac {T_L}{T_H-T_L}\\\Rightarrow 11=\frac{T_L}{300-T_L}\\\Rightarrow 11(300-T_L)=T_L\\\Rightarrow 3300-11T_L=T_L\\\Rightarrow 3300=T_L+11T_L\\\Rightarrow 3300=12T_L\\\Rightarrow T_L=\frac {3300}{12}\\\Rightarrow T_L=275\ K\\\Therefore \text{Temperature at which the refrigerator absorbs heat=275 Kelvin}[/tex]

Answer: False

Explanation: Horizontal axis wind turbines are usually used for generation of the electric power on the off-shore. The generation of horizontal-axis wind turbine works well when it is installed away from the shore because it supports large sized wind turbines so that they can generate high amount of electricity.They are usually not preferred for the on-shore wind farms because they can have small sized wind turbines only.Therefore the statement given is false.

Answer:

N = 38546.82 rpm

Explanation:

[tex]D_{1}[/tex] = 150 mm

[tex]A_{1}= \frac{\pi }{4}\times 150^{2}[/tex]

              = 17671.45 [tex]mm^{2}[/tex]

[tex]D_{2}[/tex] = 250 mm

[tex]A_{2}= \frac{\pi }{4}\times 250^{2}[/tex]

              = 49087.78 [tex]mm^{2}[/tex]

The centrifugal force acting on the flywheel is fiven by

F = M ( [tex]R_{2}[/tex] - [tex]R_{1}[/tex] ) x [tex]w^{2}[/tex] ------------(1)

Here F = ( -UTS x [tex]A_{1}[/tex] + UCS x [tex]A_{2}[/tex] )

Since density, [tex]\rho = \frac{M}{V}[/tex]

                        [tex]\rho = \frac{M}{A\times t}[/tex]

                        [tex]M = \rho \times A\times t[/tex][tex]M = 7100 \times \frac{\pi }{4}\left ( D_{2}^{2}-D_{1}^{2} \right )\times t[/tex]

                        [tex]M = 7100 \times \frac{\pi }{4}\left ( 250^{2}-150^{2} \right )\times 37[/tex]

                        [tex]M = 8252963901[/tex]

∴ [tex]R_{2}[/tex] - [tex]R_{1}[/tex] = 50 mm

∴ F = [tex]763\times \frac{\pi }{4}\times 250^{2}-217\times \frac{\pi }{4}\times 150^{2}[/tex]

  F = 33618968.38 N --------(2)

Now comparing (1) and (2)

[tex]33618968.38 = 8252963901\times 50\times \omega ^{2}[/tex]

∴ ω = 4036.61

We know

[tex]\omega = \frac{2\pi N}{60}[/tex]

[tex]4036.61 = \frac{2\pi N}{60}[/tex]

∴ N = 38546.82 rpm

Answer:

A. True

Explanation:

Answer:2.88

Explanation:

Answer:

Explanation:

load = 4500lb                   lift height= 30 ft

time =15 s

velocity=[tex]\frac{30}{15}[/tex] ft/s

velocity=2 ft/s

power = force[tex]\times[/tex] velocity

power=[tex]{4500}\times2[/tex]

power= 9000 lb ft/s

1 hp= 550 lb ft/s

power= [tex]\frac{9000}{550} =16.36[/tex] hp

Answer:

Power consume by compressor=113,726.87 KW

Explanation:

Given:[tex]P_{1}=100KPa ,V_{1}=200 m/s,T_{1}=283 K, A_{1} =2m^2[/tex]

 [tex]P_{2}=2000KPa ,T_{2}=513 K,A_{2}=0.5m^2[/tex]

Actually compressor is an open system, so here we will use first law of thermodynamics for open system .

We know that first law of thermodynamics for steady flow

[tex]h_{1}+\frac{V_{1} ^{2} }{2}+Q=h_{2}+\frac{V_{2} ^{2} }{2}+W[/tex]

We know that[tex]C_{p}=1.005\frac{Kj}{KgK}[/tex]and we take the air as ideal gas.

System is in steady state then mass flow rate in =mass flow rate out

Mass flow rate= [tex]density\times area\times velocity[/tex]

So mass flow rate =[tex]\rho _{1}V_{1}A_{1}[/tex]     ,[tex]\rho =\frac{P}{RT}[/tex]

                                   =1.23×200×2 Kg/s

                                  =541.17 Kg/s

[tex]\rho _{1}V_{1}A_{1}=\rho _{2}V_{2}A_{2}[/tex]

[tex]\rho _{2}=13.58\frac{Kg}{{m}^3}[/tex]  ,[tex]\rho =\frac{P}{RT}[/tex]

[tex]V_{2}[/tex]=80.07 m/s

Enthalpy of ideal gas h=[tex]C_{p}\times T[/tex]

So[tex] h_{1}=1.005\times283=284.41\frac{Kj}{Kg}[/tex]

             [tex]h_{2}=1.005\times513=515.56\frac{Kj}{Kg}[/tex]

Now by putting the values

[tex]284.41+\frac{220 ^{2} }{2000}+Q=515.56+\frac{80.07 ^{2} }{2000}+W[/tex]

Here Q=0 because heat transfer is zero here.

W= -210.15 KJ/kg

So power consume by compressor=541.17×210.15

                                                          =113,726.87 KW

Answer:

The application of force is the main difference between truss and frame.

Explanation:

Truss:

Truss is a collection of beams,which use to handle the tensile and   compression loads . That collection of beams creates rigid structure.

The load on the truss will be acting always at the  at the hinge. Truss is     widely used in the construction areas.                

Frame:

       Like truss, it is also a combination of beams and used to handle the loads. The main difference between truss and frame is the application of load. In the frame load can apply at the any point of the member of frame along  with hinge.

Truss are connected by pin joint and can not transfer moment ,on the other hand frames are connected by rigid joint like welding so frame can transfer moment.

Truss and frame both forms a rigid structure and is used in the construction areas.  

Answer:

Removal of dust and fluff from spinning mill is important as it has adverse and detrimental effects on the health of the workers in these industries. Tiny and microscopic particles of various substances present in the surrounding air is transferred from one place to another and these causes various respiratory diseases and pose health hazards for the workers and make work environment unhealthy and hazardous thus affecting the over all efficiency and productivity.

Cotton dust , the major pollutant, when breathed in affetcs the lungs badly and workers experience symptoms such as respiratory problems, coughing, tightness in chest, etc.  Thus to ensure proper health of the workers spinning mills have been provided with powerful air conditioning to ensure purity of air, to maintain proper moisture levels and to ensure dust and fluff removal.

The dust and fluff laiden air is humidified, purified and then recirculated. Optimization of number of air changes/hour to clean air stream and prevent any health risk of the workers.

Answer:

The given statement "A negative normal strain can be considered to increase or decrease volume depending on coordinate system used" is

b) False

Explanation:

Normal strain refers to the strain due to normal stress which is when the applied stress is perpendicular to the surface.

Negative normal strain results in compression or contraction further leading to a decrease in volume while a positive normal strain results in elongation thus giving rise to an increase in volume.

Answer:

A good quality refrigerant should be eco friendly.

Explanation:

A refrigerant is a substance that can extract and transfer heat from body to another body or medium.

The desirable qualities required for a refrigerant are :

1. A refrigerant should not deplete ozone layer.

2. A good quality refrigerant should have a low boiling point.

3. It should also have a low melting point.

4. Thermal conductivity of the refrigerant should be high for fast heat transfer.

5. It should have low specific heat.

6. It should have high latent heat.

7. It should have low vapour density.

8. Refrigerant should have high critical pressure and temperature.

9. It should have high enthalpy of vapourization for maximum heat absorption.

10. Refrigerants should not be toxic in nature and non flammable.

11. It should have high coefficient of performance for the working temperature range.

12. It should be easily available and cheap.

Flash Chamber :

A flash chamber in the refrigeration system is also know as the mixing chamber. It is normally used in multistage refrigeration system and is placed in between the expansion valve and the evaporator.

The flash chamber sends only the liquid refrigerant to the evaporator by seperating the liquid from the vapour refrigerant in order to increase the efficiency.

Answer:

F₁ = 1500 N

F₂ = 750 N

[tex]F_{e}[/tex] = 500 N

Explanation:

Given :

Power transmission, P = 7.5 kW

                                      = 7.5 x 1000 W

                                      = 7500 W

Belt velocity, V = 10 m/s

F₁ = 2 F₂

Now we know from power transmission equation

P = ( F₁ - F₂ ) x V

7500 = ( F₁ - F₂ ) x 10

750 =  F₁ - F₂

750 = 2 F₂ - F₂      ( ∵F₁ = 2 F₂ )

∴F₂  = 750 N

Now F₁ = 2 F₂

        F₁ = 2 x F₂

        F₁ = 2 x 750

        F₁ = 1500 N   ,   this is the maximum force.

Therefore we know,

[tex]F_{max}[/tex] = 3 x [tex]F_{e}[/tex]

where [tex]F_{e}[/tex] is centrifugal force

 [tex]F_{e}[/tex] = [tex]F_{max}[/tex] / 3

                          = 1500 / 3

                         = 500 N

Answer:

[tex]h_2-h_1=6\times 10^{-3}\frac{KJ}{Kg}[/tex]

Explanation:

Now from first law for open system

[tex]h_1+\dfrac{V_1^2}{2}+Q=h_2+\dfrac{V_2^2}{2}+w[/tex]

Here given  Q=0 ,w=0

So [tex]h_1+\dfrac{V_1^2}{2}=h_2+\dfrac{V_2^2}{2}[/tex]

[tex]V_1=4 m/s,V_2=2 m/s[/tex]

[tex]h_1+\dfrac{4^2}{2000}=h_2+\dfrac{2^2}{2000}[/tex]

[tex]h_2-h_1=6\times 10^{-3}[/tex]

So increase in specific enthalpy

[tex]h_2-h_1=6\times 10^{-3}\frac{KJ}{Kg}[/tex]

Answer:

Load carried by shaft=9.92 ft-lb

Explanation:

Given:    Power P=4.4  HP

                    P=3281.08 W

Power:  Rate of change of work with respect to time is called power.

We know that P=[tex]Torque\times speed[/tex]

     [tex]\omega=\frac{2\pi N}{60}[/tex] rad/sec

So that P=[tex]\dfrac{2\pi NT}{60}[/tex]

So   3281.08=[tex]\dfrac{2\pi \times 2329\times T}{60}[/tex]

      T=13.45 N-m         (1 N-m=0.737 ft-lb)

 So T=9.92 ft-lb.

Load carried by shaft=9.92 ft-lb

Answer:

Four- high rolling mill                              Two-high rolling mill

1.Small roll radius.That is why required  1.High roll radius.That is  required low power.           .                    why required high power.

2.  Low roll separating force.                   2.High roll separating

                                                                        force

Answer:

The correct answer is c. object snap  

Explanation:

In Autocad, the object snap is defined as a drawing aid that is used together with other different commands to help to draw accurately.  It also allows snapping onto a specific object location when there is a picking point. and thus, it helps to select the center of a line.

Answer: A)  Gradually decrease

Explanation:

  The convection value of heat transfer rate are gradually decreasing with the flow of the heat. Flow in a circular pipe, flow direction does not change in the velocity path. The average of the coefficient of heat transfer and the number of pipes are needed and the effects are get neglected so that is why the flow are fully developed.

Answer:

B. 3 m

Explanation: For plastic injection moulded the thickness is generally between 2 mm to 3 mm

the wall is not too thick because during cooling process there should be defects so thickness of wall is no too high and there is also a problem if we use thicker wall that we need more material for moulding process so the thickness should be in between 2 to 3 mm which is in option B so option B will be the correct option

Answer: 12

Explanation: In FCC metal lattice there are total four octahedral slip plane and six direction where each are common to two octahedral plane   and so that gives total of three slip direction . So the total slip system is multiplication of the slip plane and the slip direction that is twelve.

Slip system=Slip plane×Slip direction

Slip system =4×3=12

Therefore there are total 12 slip system in the FCC metal lattice.

Answer:

it is f all of the above

Explanation:

let me know if im right

im not positive if im right but i should be right