Segmented solid rockets require what special component? A. Igniters B. Liners C. O-rings D. Nozzle gimbals

Answer:

f = 628.32 lb

t = 2513.28 lb-inc

Explanation:

given data:

θ = 45°

outside radius = 6 inch

inside radius = 4 inch

coefficient of friction = 0.4

max pressure = 100 psi

a) determine force required for applying one pad

f =    [tex] \frac{\theta }{360}* 2\pi *p_{max}*r_{i}(r_{o}-r_{i})[/tex]

f = [tex] \frac{45 }{360}* 2\pi *100*4(6-4)[/tex]

f = 628.32 lb

b) torque capacity (t)

t = [tex]\mu *f*r_{average}^{}[/tex]

t = 0.4 *628.32*5

torque = 1256.64 lb-inc

for both pad = 2 * 1256.64 =2513.28 lb-inc

Answer:

the answer is false solid rockets can experience significant 2 phase flow

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 Explanation :

We know that entropy is the measure of molecular randomness it is denoted by S It is a thermodynamic property of gas it is an extensive property means its depend on the mass of the the system and specific entropy is defined as the entropy per unit mass its unit is KJ/kg.k

by using standard table the specific entropy for the subcooled liquid is 1.057 KJ/kg.k standard table is used for knowing the specific entropy of different liquid and gaes

Answer:

The statement is False.

Explanation:

Critical temperature is defined as the temperature at and above which the liquid and the gaseous states are indistinguishable. This is the temperature at and above which the liquid cannot be liquefied.

Above critical temperature or pressure, the substance is in supercritical fluid (SCF) state. A supercritical fluid is the one in which liquid and gaseous state can not be distinguished. It can dissolve like liquids and can effuse like solids.

Water above its critical temperature exists in SCF state which is neither vapor nor liquid.

Thus, the statement is false.

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: Potential flow states about the velocity field considering it as gradient of scalar function such as the velocity potential. It is considered same as irrotational flow.

Explanation:In the study of fluid dynamics , potential flow is stated as the term for describing about the velocity field taking it as the gradient of a scalar function. Therefore, potential flow is stated by an irrotational velocity field  and there is a irrotation because of the curl of the gradient of scalar quantity is zero.Potential flow is considered same as the irrotational flow that is the particles in the fluids that do not rotate.

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:

The condition of very system can be identified by some physical characteristics of the system known as Thermodynamic Property of the system. For example, pressure, temperature, volume, etc.

Explanation:

Thermodynamic properties are nothing but the physical characteristics of any body by which the physical condition of the body can be described. properties describes the different states of a system. They are macroscopic.

               Properties are of two types ---

Intensive property

Extensive property

Intensive Property : Those properties of a system which does not depend upon mass of the system are known Intensive property.

                               For example, pressure, temperature, density,specific volume, etc

Extensive Property : Properties that depends on the mass oh the system is called Extensive properties.

                               For example, energy, volume, etc.

Low hardness is not a characteristic property of ceramic material.

Answer: Option D

Explanation:

One of the most important properties of ceramic material is the hardness that the material displays. The hardness owes to the joining of brittle fracture and plastic flow that makes the material to defend against penetration.

The hardness can be tested with the Vickers test. The hardness of ceramic makes its dominance in the use of construction purpose and manufacture of products. Other general properties are less conductivity, high melting temperature, etc.

Not a characteristic property of ceramic material (d) low hardness.

(a) High temperature stability is a defining feature of ceramics, as they can withstand extreme temperatures without significant degradation.

(b) High mechanical strength is another key characteristic, making ceramics suitable for applications where strength and durability are essential.

(c) Low elongation refers to the minimal deformation under stress, which is typical of ceramics due to their brittle nature.

(d) However, low hardness is not a characteristic property of ceramics. Ceramics are known for their high hardness, making them resistant to wear and abrasion.

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:

explained

Explanation:

Gear is a  mechanical components designed for transfer of torque or power from one shaft to the other. Gear designing is a costly affair. The configuration and geometry of gears are such that its designing is tedious task. A lot of precision is required to design a gear. This is why factor of safety of gears are always kept higher.

The higher factor of safety accounts for durability of gears. Gears once made can used for about 200 hundred years. The wear and tear are less and the failure of gears is avoided. And hence whole machine failure can be avoided.  

Answer:

ICP -OES stand for inductively coupled plasma optical emission spectroscopy

Explanation:

It is techniques that known as trace level technique which help to identify and quantify the element present in sample by using spectra emission.

The analysis process include desolvates, ionization and excitation of the sample. The sample is identify by analyzing the emission line from it and quantify by analyzing the intensity of same emission lines.

Answer:

ICP stands for Insane Clown Posse. It is a rap group. The group's members are Violent J and Shaggy 2 Do*e

Explanation:

Answer: Convective heat transfer is defined as the transfer of heat from a particular place to another with the help of fluid movements.

Explanation: Convective heat also knows as convection that is transfer of heat from one place to another place by the help of fluid movements around the area having different temperatures. This process has many examples in everyday life to understand the process better.

Ex.- the melting of ice from solid to liquid form as it comes in contact of high temperature as heat surrounds the ice in form of air.

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:

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:900 KJ/kg

Explanation:

Given data

mass flow rate of fluid through tube is=1 kg/s

Initial enthalpy of fluid through tube=100 KJ/kg

Final enthalpy of fluid through tube=500KJ/kg

mass flow rate of fluid through shell is=4 kg/s

Initial enthalpy of fluid through shell=1000 KJ/kg

Final enthalpy of fluid through shell=[tex]h_2[/tex]

since heat lost by Shell fluid is equal to heat gain by Tube fluid  

heat lost by Shell fluid=[tex]4\times c\left ( 1000-h_2\right )[/tex]

Heat gain by tube Fluid=[tex]1\times c\left ( 500-100\right )[/tex]

Equating both heats

[tex]4\times c[/tex][tex]\left ( 1000-h_2\right )[/tex]=[tex]1\times c\left ( 500-100\right )[/tex]

[tex]h_2[/tex]=900 KJ/kg

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:

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

Answer:2.88

Explanation:

Answer: (c)Allotropy

Explanation: Allotropy is defined as the feature of the material to exist in different chemical forms or state while being in the same physical state. So, allotropy responsible for maintenance of the crystalline lattices during the temperature changes and does not alter the physical state of it. It helps elements to exist in different forms by modifying the structure of the chemical state.

Answer:b) Point defects

Explanation: The point defect is the tiny defect that occurs in the lattice. It usually occurs when there is the atoms or ions missing in the lattice structure that creates a irregularity in the structure.The name point defect itself describes that the occurring defect is having a size of point thus is the smallest defect. Therefore option(b) is the correct option.

Answer:

(b)False

Explanation:

We know that specific  Internal energy of gas u=[tex]C_v[/tex]T

      and specific enthalpy of gas h=[tex]C_p[/tex]T

If we take the case of air we know that

[tex]C_v[/tex]=0.707 KJ/Kg=K  , [tex]C_p[/tex]=1.005 KJ/Kg=K

If we take A fixed temperature T=300 K

so    u=212.1 KJ/ kg   ,h=301.5 KJ/kg

So we can say that specific enthaply of gas is always greater than its specific   internal energy.

Answer:

a) 0.51 s

b) 1.275m

Explanation:

using equation of linear motion

v=u+gt...........................(1)

[tex]v^{2} -u^{2}=2gh[/tex]...........(2)

[tex]s=ut+\frac{1}{2} gt^2[/tex].......(3)

a) as the ball is thrown upward -ve 'g' will be acting on the body

as the body reaches to the maximum height the final velocity(v) becomes

zero so from equation (1)

0=5-9.8t

[tex]t=\frac{5}{9.8}[/tex]

t=0.51s

b) Now for maximum height calculation using equation (2)

[tex]v^{2} -u^{2}=2gh[/tex]

v=0

[tex]h=\frac{-u^2}{2g}[/tex]

[tex]h=\frac{-5^2}{2\times-9.8}[/tex]

h=1.275m

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  

Answer:

the rate of heat loss is 2.037152 W

Explanation:

Given data

stainless steel K = 16 W [tex]m^{-1}K^{-1}[/tex]

diameter (d1) = 10 cm

so radius (r1)  = 10 /2 = 5 cm = 5 × [tex]10^{-2}[/tex]

radius (r2)  = 0.2 + 5 = 5.2 cm = 5.2 × [tex]10^{-2}[/tex]

temperature = 25°C

surface heat transfer coefficient = 6 6 W [tex]m^{-2}K^{-1}[/tex]

outside air temperature = 15°C

To find out

the rate of heat loss

Solution

we know current is pass in series from temperature = 25°C to  15°C

first pass through through resistance R1  i.e.

R1  = ( r2 -  r1 ) / 4[tex]\pi[/tex]  × r1 × r2 × K

R1  = ( 5.2 - 5 ) [tex]10^{-2}[/tex]  / 4[tex]\pi[/tex]  × 5 × 5.2 × 16 × [tex]10^{-4}[/tex]

R1  = 3.825 ×  [tex]10^{-3}[/tex]

same like we calculate for resistance R2 we know   i.e.

R2 = 1 / ( h × area )

here area = 4 [tex]\pi[/tex] r2²

area = 4 [tex]\pi[/tex] (5.2 × [tex]10^{-2}[/tex])²  =  0.033979

so R2 = 1 / ( h × area ) = 1 / ( 6 × 0.033979  )

R2 = 4.90499

now we calculate the heat flex rate by the initial and final temp and R1 and R2

i.e.

heat loss = T1 -T2 / R1 + R2

heat loss = 25 -15 / 3.825 ×  [tex]10^{-3}[/tex] + 4.90499

heat loss =  2.037152 W

Answer:

(d) all of the above

Explanation:

before cutting the screw threads the operator should lubricate all of the machine parts given in the option that is lead screw and gearbox , the ways and the cross slide and the carriage and half-nuts. we should use lubrication because it reduces the overall system friction and if friction is reduced then heat generated due to friction is also decreases which is beneficial

so option (D) will be correct because we need lubricate in all the given parts  

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:

1. Mass = 2070 kg

2.Total length of strip = 2556 m

3. Total length of dislocation = 7.67 X[tex]10^{14}[/tex] m

Explanation:

Given:

Aluminium coil thickness, t = 0.3 mm

                                              = 0.3 X [tex]10^{-3}[/tex] m

Width of the coil,w = 1 m

Drum diameter, d = 15 cm

                              = 0.15 m

Coil outer diameter, d = 1 m

Dislocation density = [tex]10^{15}[/tex] [tex]m^{2}[/tex]

1). Area of the coil, A = [tex]\frac{\pi }{4}\times[/tex] ( [tex]d_{coil} ^{2}[/tex]-[tex]d_{drum} ^{2}[/tex])

                           A = [tex]\frac{\pi }{4}\times (1^{2}-0.15^{2})[/tex]

                           A = 0.767 [tex]m^{2}[/tex]

Volume of the coil,V = A X w

                                  = 0.767 X 1

                                  = 0.767 [tex]m^{3}[/tex]

We know density of aluminum at STP = 2.7 X [tex]10^{3}[/tex]

Therefore, mass of the aluminum coil is,

Mass,m = Density of aluminium X Volume

             = 2.7 X [tex]10^{3}[/tex] X 0.767

             = 2070 kg

Mass = 2070 kg

2). Total length of trip of coil is given by

          L = Volume of coil / area of strip

             = [tex]\frac{0.767}{1\times 0.3\times 10^{-3}}[/tex]

              = 2556 m

Total length of strip = 2556 m

3). Total length of dislocation of the coiled strip = volume X dislocation density

                                                                             = 0.767 X [tex]10^{15}[/tex]

                                                                              = 7.67 X [tex]10^{14}[/tex]

Total length of dislocation = 7.67 X[tex]10^{14}[/tex] m