for tuning an intake runner, would a designer choose a long or short intake runner to maximize engine torque at a high rpm
Q: Please draw the free body diagram,its important.
A: Step 1: Perform Static Force Equilibrium to compute for the force applied on each bolt: Step 2:…
Q: Q7 The initial condition for an air-standard Otto cycle operating with acompression ratio of (8:1)…
A:
Q: 3.1 Complete the table! The substance is water. Show your calculations and list which tables you…
A: 2. 3. 4. 5.
Q: 9-14 Using the densities in Appendix A, convert the heats of fusion in Table 9-1 from units of J/cm³…
A: Heats of Fusion from J/cm³ to kJ/kgThe Conversion:J/cm³: This unit represents the energy required to…
Q: The 90-kg man, whose center of gravity is at G, is climbing a uniform ladder. The length of…
A: Step 1: Drawing the free body diagram of the system.The FBD of the system is drawn as…
Q: Problem 1. Neglecting the weight of the hinged gate, determine the depth h at which the gate shown…
A: Step 1:
Q: The water supply pipe shown in the figure is suspended from a cable using a series of close and…
A: Given :Total length of the pipe: 60 metersTotal weight of the pipe (filled with water): 6.5…
Q: ANSWER IS 1.39 SHOW WORKING ON HOW TO REACH THIS
A:
Q: give me the answer using matlab code
A: The prompt asks us to analyze a fourbar crank-slider linkage using the vector loop method. The…
Q: A common annoyance in cars in winter months is the formation of fog on the glass surfaces that…
A:
Q: For the beam loaded as shown in Figure 3, the vertical reaction at support B is 6.53 kN.a)…
A: First, we need to calculate the reaction at point A. The total load on the beam is the sum of the…
Q: Strictly don't use chatgpt,I need FBD.
A: Step 1: Calculate the force acting on each bolt.F=470000F=17500lbCalculate the cross-sectional area…
Q: There are five tubes that fill up to different levels 1: 22.5 cm, 2: 19 cm, 3: 17.5 cm, 4: 16 cm, 5:…
A: Let's work through the problem step-by-step, assuming water is the fluid, as it's commonly used in…
Q: Only part e, please.
A:
Q: We can model potential flow over a jellybean by using a source (Q), vortex (Γ), and sink (−Q)placed…
A: Step 1: Step 2: Step 3: Step 4:
Q: :A bin holds a cylinder as shown in figure. Each cylinder weighs “W” and has a diameter of 600 mm.…
A: Detailed explanation:Kindly mark it as HELPFULThanks !
Q: Determine equivalent inertia and equivalent stiffness of the system shown in Figure. Mass of the bar…
A:
Q: Determine the resultant of the distributed load systems for the beams shown, locate the resultant…
A:
Q: Problem Statement A piston-cylinder device contains 5 kg of water which begins as a saturated vapour…
A: Step 1: Step 2: Step 3: Step 4:
Q: For an object at the geostationary height over latitude = 40.43113 deg and longitude = -86.91499…
A: Step 1:Step 2:
Q: solve the given differential equation by using anappropriate substitution ( Each Problem is…
A: To solve the given differential equation (x−y)dx+xdy=0 using an appropriate substitution, we can…
Q: I tried to do the math for this but I don't see how else I was saposed to do it can you help me out?
A:
Q: Q4: The figure shows a shaft mounted in bearings at A and D and having pulleys at B and C. The…
A:
Q: Question 2 and 3 please
A: 2.Truss 1Nodes: 4 Degrees of Freedom (DOF) per node: 2 (horizontal and vertical displacement) Total…
Q: Please show every step and show/explain cross product
A: The problem asks us to determine the resultant moment of the forces about point O. We can do this by…
Q: Use this plot to calculate the (a) Young's modulus, (b) yield strength, (c) ultimate tensile…
A: (a) Young's Modulus (E): Young's modulus is the slope of the linear (initial) portion of the…
Q: A bin holds a cylinder as shown in figure SRB-144. Each cylinder weighs “W” and has a diameter of…
A:
Q: Due: Wed, 25-Sep-2024, 4pm PM Assignment 20/0 اساس 22.0 KIS AB Q1. Draw an isometric projection of…
A: Rough image for reference
Q: Required information Problem 04.122 - Energy balance for a passive solar house A passive solar house…
A: Step 1:Step 2:
Q: Statics of Rigid Bodies. Thumbs-up will be given. Solve in 4 decimal places. Box the Final Answer.
A: The Force SystemGiven:Three forces: 300 N, 190 N, and 325 NDistances: 450 mm eachTask:Replace the…
Q: how can i deduce these equations?
A:
Q: draw this on freecad
A: The given image is an isometric view of a part. The part consists of a rectangular prism with a…
Q: Calculate the magnitudes and locations (x, y) of both the maximum normal stress and the maximum…
A:
Q: Please solve the following by hand and without the use of AI. I am working to understand the step by…
A:
Q: Please I need solution to this question broken Down well
A: Step 1:Step 2:Step 3:
Q: I created an orbit of the ISS in MATLAB. I want to validate my data. How and where can I get actual…
A:
Q: Vibrations show all steps and solutions
A: If you have any doubts please ask in the comments.
Q: QUESTION 3 3.1 A gate in a channel is 3,25 m wide and 1,8 m deep. The gate is hinged at the top with…
A: If you have any doubts please ask in the comments.
Q: answer all parts
A:
Q: Problem 4. Air at STP flows over the top and bottom of a flat plate that is L₁ = 0.8 m by L2 = 0.4 m…
A:
Q: draw a free body diagram for each pulley Plz
A: For Left Pulley:For Right Pulley:
Q: If the wide-flange beam is subjected to a shear of V = 30 kN, determine the maximum shear stress in…
A: Step 1:Step 2:
Q: Q1: For the Otto cycle (constant volume cycle) shown in figure above prove that :- 77=1 1 (r)-1…
A: Approach to solving the question: Detailed explanation:Examples: Key references:
Q: Solve the following question by hand and without the use of AI. Use detailed mathematical…
A: The given block diagram represents a unity feedback control system with a disturbance input N(s).…
Q: Q2 A power transmission shaft 1500 mm long is supported at two points A and B. While A is at the…
A: The first step is to calculate the torque on the shaft. The power (P) is given as 50 kW and the…
Q: I need easy method for solving this step by step
A: Step 1:According to the given question, we have the following:As no external force is acting, we…
Q: Three forces P1, P2, and P3 are acting on a semi-circular structure as shown. Support at A is hinge…
A: We have a semi-circular structure subjected to three forces: P1, P2, and P3. The structure is…
Q: Q. Form local and global stiffness matrix, apply boundry conditions and solve
A: Step 1:Step 2:Step 3:Step 4:
Q: Vibrations use graph for numbers show all steps and solutions vibrations
A: Detailed explanation:Kindly mark it as HELPFULThanks !
Q: What is the vertical reaction force at D (in kN 3 sig. fig.)? 200 kN/m A 1m B C ⭑D 2m 1m
A:
for tuning an intake runner, would a designer choose a long or short intake runner to maximize engine torque at a high rpm
Step by step
Solved in 2 steps
- c) end of compression stroke 5- Match List-I (Performance Parameter Y) with List-II (Curves labelled 1, 2. 3, 4 and 5 BHP vs. Y) regarding a C.I engine run at constant speed and select the correct answer using the codes given below the lists: d) none of the List II (Curves BHP vs. Y) List I A. Total fuel consumption rate B. Mechanical efficiency C. Indicated power D. Brake specific fuel consumption Codes: A BC D (a) 5 3 4 2 (b) 1 3 4 2 (c) 5 4 2 3 (d)1 4 2 3 BHPA company provides engine specification of its engine listed below. Engine type 3 Cylinder in-line Block Cast Iron Head Cast Aluminum Number of valves 12 Power (KW) 89 Torque Nm @ rpm 170 @ 5500 Bore (mm) (6.6000x10^1) Stroke (mm) (8.00x10^1) Compression ratio (1.300x10^1):1 Weight (Kg) 78 Fuel System High pressure direct injection with 6 hole injectors Find the mean piston speed when the engine is running at (4.700x10^3) rpm. Answer should be in m/s with three significant figures.Show complete solution.
- A 292-in.³. V8, four-stroke cycle CI engine operates at 1800 RPM, using light diesel fuel at AF = 24 and a volumetric efficiency of 94%. Injection timing is from 22° bTDC to 4° aTDC. Swirl ratio, as defined by Eq. (6-1), equals 2.8 during fuel injection. Calculate: (a) Time of one injection. [see] (b) Period of swirl (one rotation). [see] (c) Number of orifice holes needed in each injector, with one injector per cylinder.Explain the operation of the variable intake manifold, including the benefits provided for low and high rpm? (50 – 70 words)Engine Type: Single cylinder Four stroke Diesel engine, Bore: 0.0875m, Stroke: 0.11m Capacity: 661.5 cc, Power: 6 H.P. at 1500 rpm, Torque: 2.96 kg.m at 1500 rpm and Compression Ratio :17.5:1 Explain how to measure the :- Fuel consumption. Inclined manometer readings for air flow. RPM, power output etc. (iv) Study of various components of diesel engine. (ii)
- Engine Type Four cylinder Four stroke Diesel engine, Bore: 0.073m, Stroke: 0.0889m Capacity: 1489cc, Power: 36 H.P. at 4000 rpm, Torque : 8.5 kg.m at 2250 rpm and Compression Ratio :17.3:1 Explain how to measure the :- (i) Fuel consumption. (ii) (iii) RPM, power output etc. (iv) Study of various components of diesel engine. Manometer readings for air flow.i need the answer quicklyQ3) The following reading was taken from the performance test of single cylinder four-stroke engine with 250 mm bore and 400 mm stroke: indicated mep 7.5 bar, engine speed 250 rpm, net load on the brake 1080 N, effective diameter of the brake 1.5 m, fuel used per hour 10 kg, calorific value of the fuel 44300 kK/kg. calculate : (1) Indicated power (2) Brake power (3) Mechanical efficiency (4) Indicated thermal efficiency State any necessary assumptions for your analysis. 1)
- The Brake Specific Fuel Consumption of an Otto engine (typical of a gasoline engine) is 0.281 kg .mechanical efficiency is 91 %, Dkw hr compression ratio is 11.5, Higher Heating Value of the fuel is Determine the indicated kg fuel engine efficiency. 32.85 % 36.1 % 57.9 % 62.35 %ENGINE SPECIFICATIONS: Engine Type : Four cylinder Four stroke Diesel engine, Bore: 0.073m, Stroke: 0.0889m Capacity: 1489cc, Power: 36 H.P. at 4000 rpm, Torque : 8.5 kg.m at 2250 rpm and Compression Ratio :17.3:1 Explain how to measure the :- (i) Fuel consumption. (ii) (iii) Manometer readings for air flow. RPM, power output etc. Study of various components of diesel engine.Please submit handwritten solution or image based solution. Kindly don't type