"Comparing ABS system to hydraulic break of a vehicle"
Q: Tech A says that camber changes as the suspension moves up and down. Tech B says that camber…
A: Camber angle : The angle made by the vertical axis with the wheel is known as camber angle . It is…
Q: An ABS modulates brake pressure. What does this mean
A: In normal braking system when we apply brakes then the wheel gets locked and wheel starts skidding.
Q: What's the similarity, advantage and disadvantage between hydraulic system and pneumatic system?
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Q: Discuss the Noise and vibration problem in hybrid electric vehicle in detail
A: A hybrid vehicle is a type of vehicle that combines the conventional internal combustion engine and…
Q: Define the difference between an integrated and anonintegrated antilock braking system.
A: ABS braking system is used to stop the automobile at the desired position with in the specified…
Q: The two SLA systems in common use today arethe __ .a. coil spring and strut suspensionb. coil spring…
A: SLA stands for short long arm suspension.It is basically a common type of suspension which uses…
Q: Explain about hydraulic and Maintenance for automotive Industries (procedure and application
A: In every industry, there is a set of machinery is employed. After some time these machines need some…
Q: 1. Determine brake power and brake thermal efficiency of the engine. 2. Analyze the effect of…
A:
Q: 70 in Hg abs = psig
A: 70 in Hg abs
Q: Explain the advance technology on active suspension system together system component and function…
A: Answer:- A type of vehicle suspension is known to be active suspension. The vertical movement of the…
Q: the aid of a diagram explain the function of the main parts of a master cylinder used in hydraulic…
A:
Q: Technician A says that on FWD vehicles, the front wheels toe-out while the rear wheels on an…
A: Toe is defined as the tilt in the wheels with respect to the straight direction. If the tilt is such…
Q: Ps or ABS shows higher toughness and why?
A: Ps stands for polystyrene ABS stands for Acrylonitrile butadiene styrene
Q: 3.1. What is the vehicle suspension? Also, state its different components.
A: Dear student, According to the guidelines I am allowed to answer only one…
Q: Question 02: Discuss the types of brakes along with their figures. Compare disc and drum brakes by…
A: When a wheel rotates about its axis at a certain speed, rotational kinetic energy is said to be…
Q: Disc brakes are not as likely to fade during heavy braking as are drum brakes. True OR False?
A: Given Data : Disc Brakes Drum Brakes
Q: Discuss the types of brakes along with their figures. Compare disc and drum brakes by discussing…
A: Classification of Brakes 1.On the basis of Power Source Mechanical braking system Hydraulic…
Q: Describe the normal pedal feel when the ABS is activated during hard braking?
A: Anti braking system(ABS): Anti braking system(ABS) allows a driver to apply the brakes quickly…
Q: (a) Define the meaning of static balance and dynamic balance.
A: Concept: Static Balance: 1)In this type of balancing, the body is at rest. 2) In order to balance…
Q: he two types of resistance to airflow in a pneumatic system are
A: Given: The pneumatic system. Explanation: Pneumatic system is the system in which compressed gas or…
Q: Technician A says hydraulic systems sometimes balance hydraulic force against spring force.…
A: Hydraulic force will work against spring force in single acting cylinders during retraction. For…
Q: While discussing types of coil springs: Technician A says that linear-rate coil springs have equal…
A: Technician A:- Technician A is correct says that in case of linear-rated coil springs have equal…
Q: A 3 -degree difference in the SAI angle on each side ofthe front suspension may cause a FWD vehicle…
A: SAI stands for steering axis inclination. It is basically an imaginary line drawn through the upper…
Q: describe four distinct modes the vehicle should be operated in during a road test when diagnosis…
A: Introduction: The test car approach was utilized to acquire journey time data. This approach has…
Q: Given the atmospheric pressure of 14.7psia (29.92 in Hg abs), convert 15 in Hg vacuum to psia.
A: Given data, Atm. Pressure is 14.7 psia. = 29.92 in Hg abs. And h1= 15 in Hg vacuum. For mercury…
Q: (a) With the aid of a diagram explain the function of the main parts of a master cylinde used in…
A: Introduction: MASTER CYLINDER: A master cylinder is a control mechanism in automobile engineering…
Q: 1. Explain the various components of Pneumatic system as shown below: Actter Conl Compre Secondary a…
A: given; compressor cooler separator receiver control valve actuator
Q: How suspension helps for the traction?
A: Traction is the friction between wheels or tires and the ground that allows a vehicle to move…
Q: What is a suspension system.
A: A speed breaker or the irregularity on the road can damage the parts of the automobile vehicles , so…
Q: onvert the power level of 90 watts in dBmunit
A: We know thatPdpm=10.log10PW.10001W
Q: Technician A says that leaf spring type suspensions are subject to wheel tramp. Technician B says…
A: Given Data⇒Technician A⇒Leaf spring type suspensions are subject to wheel tramp.Technician B⇒Anti…
Q: tires that are rotating on dry pavement in ABS. a) lower than b) higher than 4- Most of the small…
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Q: Replacing the tyre after it burst is example of breakdown maintenance. an Select one: O True O False
A: Breakdown maintenance is an unplanned maintenance which will occur when we are in the situation to…
Q: andard efficiency & brake thermal efficiency of engin
A: given:brake thermal efficiency=24.4%air thermal efficiency=53.4%
Q: Explain the procedure and regulations for hydraulic and pneumatic components maintenance
A: Proper Procedure and regulations for hydraulic system... Clean the area around dipsticks, fill plugs…
Q: 1.a) Derive an expression for the braking efficiency and breaking distance. b) What are the forces…
A: The braking system's purpose is to reduce the speed of a moving vehicle or bring it to a stop in the…
Q: Explain about hydraulic and Maintenance for automotive Industries (procedure and applications)
A: Maintenance of the machinery is a very important part of the insutries. In every industry, there is…
Q: significance of a combined cbs and abs braking system
A:
Q: Out of the camber and caster, which is measured first and why? How the camber angle can be adjusted…
A: Camber angle is the angle which is measured in the front elevation in-between the wheel plane &…
Q: Discuss the difference in potential energy between weight and spring. plzzzz!!!!
A: Potential energy exists by the virtue of the relative position of the body, stresses inside the…
Q: What is the formula and variables in finding the maximum pressure of a motorcycle?
A: To find :- Formula and variable on maximum pressure on motor cycle.
Q: what is the advantage of dynamic brakes over mechanical brakes
A: Dynamic brakes:- Dynamic braking system is the use of an electric traction motor as a generator when…
Q: the braking torque (in Nm)
A: Given; Schematic of an external drum rotating clockwise engagingwith a short shoe is shown in…
Q: Discuss about antilock braking system and its importance in modern vehicles
A: ABS systems in cars stop them from skidding and preventing the wheels from locking up during the…
Q: Discuss the concept of Brake Specific Fuel Consumption (BSFC)
A: Brake specific fuel consumption – It is the fuel required per unit of work output. It is also…
Q: d) Figure 1 below shows a vehicle which has taken a curve at very high speed, but since the road was…
A:
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- UST Hospital had a surge of Covid-19 patients. Due to lack of mechanical ventilators and medical staffs pumping Bag Valve Mask (Ambu bag), Thomasian mechanical engineering students were asked to design a low-cost mechanically operated Ambu bag. The mechanism involves cam and follower (see figure below). Air Tube Ambu Bag Follower Cam DC Motor Aluminum Frame Design Parameters Knife-Edge Follower Type Ambu Bag Diameter Follower Displacement Inhale Span (Rise) Exhale Span (Fall) Dwell Span Cam Base Radius 200 mm 85% of Ambu Bag Diameter 1.75 sec 2.25 sec 4 sec 60 mm 1. What is the gear ratio needed to reduce the cam speed appropriate for the given parameters if the rated motor speed is 100 rpm? 2. Draw the profile of the cam and show the displacement diagram using: a) Uniform Velocity Motion b) Uniform Acceleration Motion c) Simple Harmonic Motion d) Cycloidal MotionPlz solve within 30min I vill give definitely upvote and vill give positive feedback thank you Take F1=170lb F2=210lb,and F3=160lbAim: To conduct a full kinematic analysis and calculate dynamic reaction forces in a linkage mechanism, calculate instantaneous torque, required to drive the mechanism and to present the results of the case study in a clear reporting format. Introduction: Figure 1 shows a pumpjack operating at an oil well. Its representation as a linkage is also shown in Figure 1. The pumpjack is driven by a motor attached to crank OA. A constant torque T is applied to the crank and the crank rotates at a constant angular velocity ???. A force P is applied vertically downwards at the end of the walking beam BD, which has its centre of mass at point G. To design the mechanism, a careful kinematic analysis of the mechanism needs to be conducted. To avoid mechanical failure and to provide adequate support to the mechanism, the engineer needs to analyse the reaction forces in the joints. Masses of links OA and AB are assumed to be smaller in comparison with the mass of BD and are ignored in the analysis.…
- give the a) A turbine connected to an electric generator through a gearbox can be modelled as illustrated in Figure 1 = 951 kgm² J2 = 950 kgm² equivalent inertias of the rotary system. The shafts provide a stiffness of k1 = 9.9x10¹Nm/Rad k2 = 4.9x106Nm/Rad spectively. The letters in the parameters represent digits of student numbers: A is the third digit, B is the fifth digit, D is the sixth digit, and F is the seventh digit. i) Draw free-body diagrams ii) Write the equations and put them in matrix form iii) Calculate the dynamic stiffness values iv) Find the natural frequencies and draw mode shapes of the system v) Discuss the effect of coupling stiffness k₁₂ on the natural frequencies k₁₁ 01 k12 O Figure Q2.Project 7: The landing gear of a commercial aircraft is modeled as mass-spring-damper system as shown in figure below. Your role is to define the main characteristics of such motion when the aircraft lands on rough runway that causes an oscillator motion as shown in the Figure.8. Your manger asked you to write a report showing your analysis for the system to avoid any excepted damages to the landing gear. Damper- Suspension System Oscillation Spring Street and Dunps Oscillations Elastic Tire Figure.8: Car's Suspension mass-spring-damper system A. For any mass-spring system, explain the natural frequency of vibration. B. To identify the system main parameters, the following mass-spring-damper model is identified: x(t) = 0.1179e-25.2t sin (50t + 0.3224n) Determine the amplitude and phase angle of the transient response within the system? C. What is the frequency of the runway vibration required to cause resonance? Briefly, explain why it happens. D. Briefly, suggest how to prevent…480 ft-lbf First Gear (2.66) Final Drive (3.42) Axle Torque Thrust Force Figure 2 - Corvette Z06 and its transmission schematic. You start by measuring the 60-0 mph braking performance, which is accomplished along 30.56 m. The test weight (including the driver) was found to be 1510.5 kgf. 1) "Fuel is spent to make the vehicle go uphill, as you are aware. However, the fuel will not be restored if the vehicle is brought back from the hilltop to the initial elevation level."ANALYSE this statement under the laws of Thermodynamics.
- Draw the complete FBD of members AB, FG, EBH and GHI parameters are attached in case needed.Project 7: The landing gear of a commercial aircraft is modeled as mass-spring-damper system as shown in figure below. Your role is to define the main characteristics of such motion when the aircraft lands on rough runway that causes an oscillator motion as shown in the Figure.8. Your manger asked you to write a report showing your analysis for the system to avoid any excepted damages to the landing gear. Damper x(t) Suspension System Oscillation Spring Street and Bumps Oscillations Elastic Tire Figure.8: Car's Suspension mass-spring-damper system A. For any mass-spring system, explain the natural frequency of vibration. B. To identify the system main parameters, the following mass-spring-damper model is identified: x(t) = 0.1179e-25.2t sin (50t + 0.3224n) Determine the amplitude and phase angle of the transient response within the system? C. What is the frequency of the runway vibration required to cause resonance? Briefly, explain why it happens. D. Briefly, suggest how to prevent…Give one example for each of lightvehicle steering and suspensionsystemsa) hydraulic power assisted steeringb) adaptive suspensionfor each of the following: (5 -10words each)a. b. c.Intermittent faultsMulti-system faultsIntroduced as a result of asystem repaird.Indirect, caused by theinfluence of external systemsIn your answer, briefly explain theprocess that would be followed todiagnose the fault
- O geas use im steering aio plane Spuy bevel Helical Coerm usd after motor to damyping vtalarim Spur gear O Charn © Neme Belt follwer las mere frician with Cam flat Roiler O Icmife (O None follower lised to toensminsiag wsn Dewer named flat®AMa the anble © kmit @ Roller ylaping Example on All a the above BscotchY arc ☺ Cranic @ duick retunnam Ro forcwer esed Ao Aoenymision low power named Roller (O flat kmife Au athe 9- abveGive one example for each of lightvehicle steering and suspensionsystems1) hydraulic power assisted steering2) adaptive suspension for each of the following: (5 -10words each)a. Intermittent faultsb. Multi-system faultsc. Introduced as a result of asystem repaird. Indirect, caused by theinfluence of external systemsIn your answer, briefly explain theprocess that would be followed todiagnose the faultEFx=0= (0.433 F1) - (0.667 F2) - (0.866 F3) + (0.342 P) EFy=0= - (0.250 F1) + (0.667 F2) EFz=0= (0.866 F1) + (0.333 F2) + (0.500 F3) - (0.940 P) Find the magnitude of F1, F2, and F3