Q4/ in a horizontal belt drive for a centrifugal blower, the blower is beit driven at 600 r.p.m. by a 15 kW,1750 r.p.m. electric motor. The centre distance is nwice the diameter of the larger pulley. The density of the beltmaterial = 1500 kg/m: maximum allowable stress = 4 MPa; u, = 0.5 (motor pulley);: # = 0.4 (blower pulley);peripheral velocity of the belt = 20 mis. Determine the following:1. Pulley diameters diameters : 2. belt length: 3. cross-sectional area of the belt; 4. minimum initial tension foroperation without slip: and 5. resultant force in the plane of the blower when operating with an initial sension 50per cent greater than the minimum value.

“Since you have posted a question with multiple sub-parts, we will solve the first three sub-parts…

Q4/ In a horizontal belt drive for a centrifugal blower, the blower is belt driven at 600 rp.m. by a 15 kW. 1750 r.p.m. electric motor. The centre distance is nvice the diameter of the larger pulley. The density of the belt material = 1500 kg/m'; maximum allowable stress 4 MPa; , = 0.5 (motor pulley); a, = 0.4 (blower pulley; peripheral velocity of the belt = 20 m/s. Determine the following: 1. Pulley diameters diameters : 2. belt length: 3. cross-sectional area of the belt; 4. minimum initial tension for operation without slip: and 5. resultant force in the plane of the blower when operating with an initial tension 50 ner cent grater than the minimum value

Q4/ In a horizontal belt drive for a centrifugal blower, the blower is belt driven at 600 rp.m. by a 15 kW. 1750 r.p.m. electric motor. The centre distance is nvice the diameter of the larger pulley. The density of the belt material = 1500 kg/m'; maximum allowable stress 4 MPa; , = 0.5 (motor pulley); a, = 0.4 (blower pulley; peripheral velocity of the belt = 20 m/s. Determine the following: 1. Pulley diameters diameters : 2. belt length: 3. cross-sectional area of the belt; 4. minimum initial tension for operation without slip: and 5. resultant force in the plane of the blower when operating with an initial tension 50 ner cent grater than the minimum value

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

See similar textbooks

Related questions

Q: e 10.34. The contact surfaces in a cone clutch have an etfective diameter of 75 The semi-ungle of…

A: This question is related to the cone clutch For the uniform wear theory We use the expression,…

Q: M1 M2 R friction The figure above illustrates a system comprising a rigid support structure having a…

Q: 3= Q + & 4qAnrm & Expert Q&A Design a shatt and tiange tor a Diesel engine in which protected type…

A: A flange coupling is a driving connection between rotating shafts that consists of two flanges, one…

Q: A multiple vee-belt drive is required to transmit 4 kW. The smaller pulley has of the system has a…

A: The power transmitted, P = 4 kWThe diameter of the smaller pulley, d = 150 mmThe speed of the…

Q: 1. A collar is fitted as a tight fit on a solid shaft. In the measurement made before assembly, the…

Q: A pipe with an outside diameter of 55 in. and an inside diameter of 5.067 in. is subjected to an…

Q: Design and draw a neat sketch of a cast iron protective type flange coupling to transmit “P” kW at…

Q: A bushed pin type flexible coupling is used to transmit 10 kW power at 720 rpm. The design torque is…

A: To design: The bushed pin coupling. Given: The power transmitted is P=10 kW103 W1 kW=10×103 W. The…

Q: P (AA) forces are as Q1: A shaft made of steel receives 8 kW power at 1500 r.p.m. A pulley mounted…

Q: 2. The pressure of a hydraulic working cylinder is intensified by using a pressure intensifier. The…

Q: Plz give proper Answer other wise don't attempt. A shaft of 30 kW 710 r.p.m motor is 40 mm in…

A: To find: The stress due to bending if the armature weighing 10000 N concentrated at the centre…

Q: A 2 hp, 2500 rpm electric motor drives a machine through a flat belt. The driven shaft speed…

Q: A drive shaft is made of a hollow tube with an outer diameter of Do 2.5 in. It is desired to…

Q: Q1/A 6-in-wide polyamide F-1 flat belt is used to connect a 2-in-diameter pulley to drive a larger…

A: This question is related to the flat belts.The expression of angle of contact of the pulley.Here, C…

Q: Eng. to select material for turbine disk based on its density, min strength 667 MPa., poisson ra. Ho…

Q: M, M2 R friction The figure above illustrates a system comprising a rigid support structure having a…

A: Given Two blocks of mass M1 & M2 are tied to the rope and placed over a wedge Left side of the…

Q: 5. Design a compression coupling for a shaft to transmit 1300 N-m. The allowable shear stress for…

Q: Q.1 Design a compression coupling for a shaft to transmit 2000 N-m. The allowable shear stress for…

A: Answer: Given, T = 2000Nam = 2000 x 103 N - mm τ= 50 MPa σ t = 90MPa No ,of bohts , N = 6…

Q: The value of curvature correction factor k, will be if the spring index is 6. O a. 1.33 O b. 1.08 O…

Q: • Q3:An exhaust fan fitted with 900 mm diameter pulley is driven by a flat belt from a 30 kW, 950…

A: To findDetermine the necessary thickness of the belt and its total length.Giventhe diameter of the…

Q: The mean diameter of the driving pulley for a vee-belt drive with two belts is 110 mm. The pulley…

A: diameter of pulley (d) = 110 mm no of belt = n = 2 groove angle = 2β = 45° = β = 22.5° power…

Q: A 3 x 8 member in a diaphragm resists a tension force caused by the lateral wind pressure. Lumber is…

A: Given:- b = 3 ft d = 8 ft Bolt diameter `ϕ = 78in

Q: 8. A nylon-core flat belt has an elastomer envelop; is 200 mm wide, and transmits 60 KW at a belt…

A: (A) Write the given data. w=200 mmP=60 kWv=25 m/sm=2 kg/mC=6 mD=300 mmd=900 mm

Q: Q3/ Design a helical compression spring made from stainless steel for the following operating…

A: Stress: When a component or a part is subjected to any external force, a resisting force will be…

Q: (b) (c) Calculate the hoop tension, Fe due to centrifugal force. b Find the torque, T due to the…

A: DefinitionHoop tension:Hoop tension, also known as hoop stress, is the stress that develops in the…

Q: A simple flat belt drive system shown in the figure has a driving pulley diameter 220mm and runs at…

Q: Design and draw a neat sketch of a cast iron protective type flange coupling to transmit “P” kW at…

Q: Provide step-by-step solution with complete given and formula to this problem. Draw sketch also.…

A: Given DataL=328 ftd=1.75 inW=8×103×2.2=17.6×103 lbsV=525 fpmt=10s

Q: A differential cylinder with the area ratio p of 2.5:1 is to lift 50 kN 500 mm in 4 secs. The…

A: A double-acting cylinder can work on both sides, in these types of cylinders both pistons may…

Q: proper key for the joint shown in figure E rque of T= 180 N.m. The hub has length of

A: Given data shaft dia = 30 mm length of hub = 50 mm allowable compressive stress = 120 MPa Required =…

Q: 4 dia 16 R. 3. The grip strengthener shown in Fig. 1 is composed of a helical spring made of 4 mm…

A: Given: Diameter, dw=4 mmouter diameter, OD=32 mmnumber of turns, Nb=3.5design factor, ns=Syσs=1.1

Q: A chain drive using bush roller chain transmits 5500 W of power. The driving shaft on an electric…

A: Given Data Transmitted power is: P=5500 W The speed of the drving shaft is: n=1440 rpm The velocity…

Q: QUA four stroke internal combustion engine has the following specifications: Brake power-7.5 kW;…

A: four stroke engine Brake power (B.P.)= 7.5 KWSpeed (N)= 1000 rpmImep (Pm)= 0.35 N/mm2max. gas…

Q: OUsi ng spheric al pressure Vessel is it safe based on maximum internal pressure all ow able mi ni…

A: 1) a] Maximum internal pressure allowable : p = σ * 4 * t / d p = σ * 4 * t / d p = 103421 * 4 *…

Q: Q2 /A belt drive consist of two V-belts in parallel, on grooved pulleys of the same size. The angle…

A: The V-belt drive consists of two shafts between which power is transferred. These are connected by a…

Q: the system is used to lift à mass of A compound lever as shown below. Find the effort 800kg. (10)…

A: As per policy experts are allowed to answer only one question (first one), for the second one please…

Q: 4. A small race car has an aluminum hub (shown in red). The drive axle is press-fit into the hub,…

Q: . Determine: the diameter of shaft

A: Given: P= 20 kW N=750 rpm T1/T2=2.5 WA=300 N WB=250 Nshear stress=70 MPa kt=2 km=1.5 DB=1000 mm…

Q: A countershaft carrying two V-belt pulley is shown in Figure 1. Pulley A receives power from a motor…

A: Given: The tension on the loose side of belt, T2 = 0.15T1

Concept explainers

Plane Trusses

It is defined as, two or more elements like beams or any two or more force members, which when assembled together, behaves like a complete structure or as a single structure. They generally consist of two force member which means any component structure where the force is applied only at two points. The point of contact of joints of truss are known as nodes. They are generally made up of triangular patterns. Nodes are the points where all the external forces and the reactionary forces due to them act and shows whether the force is tensile or compressive. There are various characteristics of trusses and are characterized as Simple truss, planar truss or the Space Frame truss.

Equilibrium Equations

If a body is said to be at rest or moving with a uniform velocity, the body is in equilibrium condition. This means that all the forces are balanced in the body. It can be understood with the help of Newton's first law of motion which states that the resultant force on a system is null, where the system remains to be at rest or moves at uniform motion. It is when the rate of the forward reaction is equal to the rate of the backward reaction.

Force Systems

When a body comes in interaction with other bodies, they exert various forces on each other. Any system is under the influence of some kind of force. For example, laptop kept on table exerts force on the table and table exerts equal force on it, hence the system is in balance or equilibrium. When two or more materials interact then more than one force act at a time, hence it is called as force systems.

Question

Q4/ in a horizontal belt drive for a centrifugal blower, the blower is beit driven at 600 r.p.m. by a 15 kW,
1750 r.p.m. electric motor. The centre distance is nwice the diameter of the larger pulley. The density of the belt
material = 1500 kg/m: maximum allowable stress = 4 MPa; u, = 0.5 (motor pulley);: # = 0.4 (blower pulley);
peripheral velocity of the belt = 20 mis. Determine the following:
1. Pulley diameters diameters : 2. belt length: 3. cross-sectional area of the belt; 4. minimum initial tension for
operation without slip: and 5. resultant force in the plane of the blower when operating with an initial sension 50
per cent greater than the minimum value.

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1

Step 2

Step 3

Step 4

Step 5

Step 6

Trending now

This is a popular solution!

Step by step

Solved in 6 steps with 6 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, mechanical-engineering and related others by exploring similar questions and additional content below.

Similar questions

H.W: Design a cast iron rigid type flange coupling to transmit 20 kW at 900 r.p.m. from an electric motor to a compressor. The following permissible stresses may be used: Shear stress for shaft, bolt and key material =40 MPa Crushing stress for bolt and key = 80 MPa %3D Shear stress for cast iron =8 MPa Draw a neat sketch of the coupling.
1- A bush roller chain drive is used to transmit 4 kW of power from the driving shaft on a hydraulic motor runs at 1200 r.p.m to the driven shaft which runs at 350 r.p.m. The drive is required to operate continuously with drop lubrication and driven machine is such that load can be regarded as fairly constant. Design the chain drive by calculating leading dimensions, number of teeth on the sprockets taking into account that the available distance between the two shafts centers is 400mm + 4% no more no less.
Mechanical design The maximum load in a rotating shaft is subjected to bending moment of 1 kN.m and a torque of 1 kN.m. The member is made of steel the Ultimate Tensile Strength 440 MPa, Yield Tensile Strength 370 MPa. With a safety factor of 4, kt = km = 1.5 and keyway stress consternation is presented. According to the maximum shear stress theory, the shaft diameter will be: a. 160 mm b. 74 mm C. 145 mm d. 92.5 mm e. 60 mm f. 66 mm
A mild steel shaft has to transmit 75 kW at 200 rpm. Design a cast Iron flange coupling for the shaft. The allowable stresses are Shear stress for the shaft and keys 40 N/mm²Shear stress for bolts = 28 N/mm²Shear stress for C.I. coupling = 20 N/mm² Take wearing stress as twice the shear stress value and number of bolts for coupling as 6.
An electric motor running at 970rpm is used to drive a rock crushing machine with a design power of 32 kW. A 33oz ducking weight flat belt drive is proposed with a tension ratio of R = 4 and belt width b = 120 mm. The pitch diameter of the driving pulley (on the motor-end) is 320mm. a) What is the mass per mm width per m length per ply in kg/mm/m/ply? Number (exact value) b) What is the maximum working tension per mm width per ply in N/mm/ply? Number (exact value) c) Calculate the belt velocity in m/s Number (+/-1%) d) Determine the number of belt plies required. Your answer should be an integer number (no decimals). Number (exact value)
The coefficient of friction between the belt and the pulley is 0.3 and the maximum stress in the belt is limited to 14 N/mm width. If the larger pulley rotates at 120 r.p.m., find the maximum power that can be transmitted. Q2 Find the diameter of a shaft made of 37 Mn 2 steel having the ultimate tensile strength as 600 MPa and yield stress as 440 MPa. The shaft is subjected to completely reversed axial load of 200 kN. Neglect stress concentration factor and assume surface finish factor as 0.8. The factor of safety may be takenas 1.5. Q3 a) An universal coupling is used to connect two mild steel shafts transmitting a torque of 6000 N- m. Assuming that the shafts are subjected to torsion only, find the diameter of the shaft and the pin. The allowableshear stresses for the shaft and pin may be taken as 55 MPa and 30 MPa respectively.
Use the following shaft layout assuming a pulley transmits torque through a key and keyseat at location A to another pulley at location B. Assume the tensions In the belt at pulley Bare T, and T2, where T Is 15% of T2. NOTE: This is a multi-part questlon. Once an answer is submitted, you will be unable to return to this part. T2 10.0 18.0" Bearing at O 500 Ib 12.0 pulley diameter = 8.0" 75 Ib T1 pulley diameter = 10.0" Bearing at C Sut 163 kpsl Sy 117 kpsl Materlal 1050 Q and T Using the DE-Goodman criterla and a design factor of 1.5, calculate the diameter based on the shaft's loadings and your guess for the shaft's dlameter at the critical location. What Is the shaft diameter? Assume the notch radlus to be 0.02 In. (You must provlde an answer before moving to the next part.) The shaft dlameter Is| 1.3146| In. The factor of safety agalnst ylelding Is 3.75
Compute the contact stress number for the gear fain pair driven directly by an electrical motor. The driven machthe is concrete mixture with moderate shock, the other data are given below. Ks= 1.00, Km 1.21, Vt =1527 St/min, Av-11 Pd= 6, np= 1750rp.m, Np 20, No= 70, F=2.00/n Tp = 900ib, Dp= 3:333 in The material used for pioin an gear is Steel
Requlred Information A countershaft carrying two V-belt pulleys Is shown In the figure. Pulley A recelves power from a motor through a belt with the belt tensions shown. The power Is transmitted through the shaft and dellivered to the belt on pulley B. Assume the belt tenslon on the loose side at B Is 15 percent of the tension on the tight side. Glven B(dg) = 400 mm, TA = 575 N, and TỊA2) = 3835.25 N. 300 450 400 TIA T(A2Y `150 250 dia. B(da) 20 dia. B At the point of maximum bending moment, determine the bending stress and the torslonal shear stress. The bending stress at the point of maximum bending moment is [.09515 MPа. The torslonal shear stress at the point of maximum bending moment is 259.442 MPа.
der engine has been drawn 0 2 moment diagram for a multicylin ~ 2.4° horizontallv. e = 4500 N-m vertically and 1 mm 'mxemapwd areas between output torque curve and the mean resistance line taken in order from one end are 342. 23, 245. 303. 115. 232. 227. 164 mm2. when the engine is running at 150 r.p.-m- If the mass of the flywheel is 1000 kg and the tota! fluctuation of speed does not exceed 3% of the mean speed. find the minimum value of the radius of gyration 16.4/ The turning
(BB) Q1: The shaft, as shown in Fig. is driven by pulley B from an electric motor. Another belt drive from pulley A is running a compressor. The belt tensions for pulley A are 1500 N and 600 N. The ratio of belt tensions for pulley B is 2.5. The diameter of pulley A is 150 mm and the diameter of pulley B is 480 mm. The allowable shear stress for the shaft material is 85 MPa. Taking torsion and bending factors as 1.25 and 1.5 respectively, find the shaft diameter. C # -100- A B -150-100 D TB2 All dimensions in mm. B A TAZ TAI TB1
d) A leather round belt transmit power from small pulley rotates 1200 rpm. The diameter of small pulley is one third of the diameter big pulley. The center distance between the pulleys is twice the diameter of big pulley. The stresses in the belt should not exceed 2 MPa and belt density is 950 kg/m?. Due to the friction of rotation, the ratio tension on the tight side to the slack side is 2:1 and coefficient of friction is 0.35. For design requirement, the ratio of diameter leather round belt to diameter of small pulley is 1:18. Determine, i) Contact angle. i) Diameter belt. iii) Belt tension. iv) Torque.