Drag Racing 1/4 Mile times 0-60 Dyno Fast Cars Muscle Cars

Accord V6 09 vs 350z 06 part 2

Accord mods: Intake + heavy 19" wheels... 350z mods: Intake, TB spacer


 


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YR RSX vs. V6 FBO Accord vs. R32 VR6 swapped GTI
Mods are in the video to the best of my knowledge





V6 Accord vs V6 Altima
having fun on Ventura road! march 2012





ACCORD V6 VS 350Z 2008 PART 1





Spinning over a V6 GM engine
The piston sequencing is shown for a 3.4 liter GM V6 engine. Note, it turns out that I numbered the cylinders wrong, what I call #1 is actually #2, and what I labelled as #2 is actually #1. So the Actual firing order as a regular V6 engine, is 1,2,3,4,5,6, I know, weird, but that is they way they made them. I am more used to V8 engines, so that is why I numbered the cylinders the way I did. Either way though, it shows that the crankshaft will not work as it is for the Junkyard Deltic project. Time to cut and weld the crank!!!!!!!!





Accord V6 09 vs 350z 06
First time at Napierville. 14.13sec @ 99.48 mph with a bad 60' of 2.4sec... Accord mods: Short Ram + heavy 19" wheels... 350z mods: Intake, TB spacer





Civic Si vs. Accord V6
on the west side racing





GM ( Chevrolet or GMC ) 4.3 L V6 Engine Tear Down
This video goes through the teardown process of a GM 4.3L V6. It has been removed from the vehicle and we take it apart, except for crank and piston removal. Visit: http://www.autoeclinic.com/ The automobile consist of: Powertrrain 1. Engine: • Fuel System: Purpose is to deliver fuel to the engine. It consists of the fuel tank, pump, gauge/sensor, filter, pressure regulator and injectors. • Air Intake System: Purpose is to clean and direct outside air into the engine. It consist of air filter, ducts, air plenum and intake manifold. • Exhaust System: Purpose is to direct Exhaust gasses out of combustion out of engine. It consists of the Exhaust manifold, converters, pipes and mufflers. • Cooling System: Purpose is to remove excess heat from the engine. It consists of water pump, hoses, radiator, thermostat, cooling fan and coolant recovery tank. Also the oil system serves as a cooling system as well as a lubricating system. It consist of oil pump, pan, filter and cooler. Drivetrain: 1. Clutch: Purpose is to connect the engine and transmission together. It consists of clutch drive disc, driven disc, release bearing, clutch fork, cable, slave cylinder, master cylinder. There are three types of clutch systems: mechanical, cable and hydraulic. 2. Transmission: Purpose is to match engine speed to road speed. Two types used are manual or automatic. These consist of gears, linkages, cables and converters for automatics. A manual is connected to the clutch by a flywheel and automatic by a flexplate. 3. Driveshaft: Purpose is to connect the transmission to the rear axle. It consists of a slip yoke, shaft and universal joints. 4. Rear axle differential: Purpose is to change the angle of motion from engine to the wheels. It also divides torque between the wheels. It consists of a ring and pinion gear, carrier, bearings, crush sleeve and axle shafts. 5. Wheels/Tires: Purpose is to provide traction to the road as well as carry the weight of the vehicle. Vehicle Control Systems: 1. Brakes: Purpose is to slow and stop the vehicle. It consists of master cylinder, brake Booster (vacuum or hydraulic), calipers, drums, pads and rotors. 2. Steering: Purpose is to direct vehicle in the required direction. Consists of steering gear (rack & pinion), steering wheel, column, inner/outer tie rods, pump, reservoir, hoses and pipes. 3. Suspension: Purpose is to provide stability and handling while also providing comfort to the ride. Consists of shocks, struts, sway bars, end links, springs, trailing arms and bushings. Comfort System: 1: Heating Ventilation Air Conditioning (HVAC): Heats and cools interior air to passenger comfort. Also circulates outside and inside air. • Air Conditioning: Consist of condenser, compressor, accumulator (receiver/dryer) orifice, expansion valve, hoses, evaporator, controls, actuators and modules. • Heating: Consists of heater core, valves, hoses and switches. Electrical Systems: 1. Power Generation: Creates electrical power to run all the electrical systems. Consists of the alternator. 2. Power storage: Stores unused power to start the car and supply voltage to the alternator to create more electricity. • Both systems consist of wiring, harnesses, fuse, relays and modules





Jaguar F-Type V6 engine sound and 0-100km/h
Jaguar F Type V6 engine sound and 0-100km/h. Head over to http://performancedrive.com.au/jaguar-f-type-v6-review-video/ for the full review. 2014 Jaguar F Type V6 3.0-litre supercharged V6 250kW and 450Nm Eight-speed automatic, rear-wheel drive 0-100km/h in 5.2 seconds (as tested)





Mercedes Straight 6 Engine Vs. V6 Engine - A Quick Comparison
Using a W124 wagon and a W210 wagon, Kent shows you some of the basic differences between the older M103 straight six cylinder and the newer M112 V6 introduced in the late 1990's. Opinions abound and of course Kent has his own too. See if you can figure out which he likes best....





Accord V6 09 vs Mustang GT 08
Accord mods: Intake + heavy 19" wheels... Mustang mods: Intake





2010 Honda Accord v6 Magnaflow CBE No resonator w/RV6 J-pipe Video
Honda Accord V6 Coupe, Comparing Magnaflow CBE w/o Resnator before Jpipe and After jpipe





2014 Honda Accord vs Toyota Camry 0-60 MPH Hybrid Matchup Review
( http://www.TFLcar.com ) The 2014 Honda Accord Hybrid and the 2014 Toyota Camry Hybrid directly compete against each other for new car hybrid sedan buyers. Click link for all of the Kickstarter details ( http://kck.st/19SN7KF ) So which of these two fuel sipping sedans is the better buy. In another accurate fun and informative TFLcar 0-60 MPG video review Nathan and Roman put both hybrid up against each other to not only see which is the most fuel efficient, but which one is the fastest. Check us out on: Facebook: ( https://www.facebook.com/tflcar ) Twitter: ( https://www.twitter.com/tflcar ) and now even Truck Videos on YouTube at: The Fast Lane Truck ( http://www.youtube.com/user/tflcar )





Honda Factory in Swindon, UK (Civic, CR-V) [Part 1]
Honda in Swindon Manufacturing the 8th Gen Civic & 3rd Gen CR-V Part 2: http://youtube.com/watch?v=Yw3DxN127m4 The Definitive Owner's Resource: http://hondakarma.com





Accord V6 09 vs Mustang GT 04
Accord mods: Intake + heavy 19" wheels... Mustang mods: Intake





2hp: Mazda 6 VS Honda Accord
Today we'll compare Mazda6 and Honda Accord. Mazda has become more attractive, masculine and aggressive, at the same time Accord has grown up and has become more heavy and ambitious.




Which car is faster? Which Car is Faster?





Similar 1/4 mile timeslips to browse:

1995 Nissan 350Z Single Turbo: 9.340 @ 145.470
gbaker, Engine: 3.5L VQ35DE, 8500rpm redline, Turbos: Garrett GT42R 76mm Ball-Bearing Single Turbo Tires: MT 305/35-18 Drag Radials


2003 Nissan 350Z Twin Turbo Touring 6MT: 10.967 @ 126.840
Brian Vogelsinger, Engine: VQ35DE, Turbos: Twin Garrett GT2871R Tires: MT ET street radials


2003 Nissan 350Z Track Greddy Turbo: 11.190 @ 126.180
Alberto, Engine: 3.5L, Turbos: Greddy Tires: ET Streets


2003 Nissan 350Z Touring Stock Motor Vortech V2 SC-Trim: 11.245 @ 127.420
TimRod, Engine: Total Stock Motor, Never touched, Supercharger: Vortech V2 SC-Trim Turbos: None Tires: 28 x 10.50 x 15 ET Drags


2004 Nissan 350Z TT 700BB: 11.378 @ 128.210
zorrotsi, Engine: VQ35DE, Turbos: JWT 700bb Tires: mt et streets


2005 Nissan 350Z Twin Turbo: 11.470 @ 131.960
sbaset, Engine: 3.8L Darton sleeved shortblock,


2003 Nissan 350Z APS Twin Turbo: 11.536 @ 120.800
Brian Vogelsinger, Engine: stock, Turbos: APS Twin Turbo kit Tires: MT ET street


2004 Nissan 350Z touring JWT 700BB Turbo: 11.560 @ 125.060
Rafa, Engine: VQ35DE, Turbos: JWT 700BB Tires: MT STREET


2005 Nissan 350Z Extreme APS TT: 11.618 @ 124.820
Manuel Ferro, Engine: Built, Turbos: Extreme APS TT


1997 Honda Accord SiR: 11.741 @ 117.400
Scott DiLonardo, Engine: F20b DOHC stroked to 2.2 L, Turbos: T3/T04 Tires: Yokohama Parada spec 2 215/40-ZR 17 in front 225/4


2003 Nissan 350Z touring: 11.833 @ 115.530
jeremy tibbs, Engine: vq35de,


2003 Nissan 350Z Track Single Turbo: 11.875 @ 124.058
Shon (me), Engine: VQ35, Turbos: Turbinetics Tires: 225/40/18 front 245/40/18 rear


2003 Nissan 350Z performance: 11.937 @ 123.821
Steven, Engine: 3.5L VQ35DE, Supercharger: none Turbos: none Tires: 275/40/18


2006 Nissan 350Z Base: 12.051 @ 112.900
Jon Stevenson, Engine: Stock, Supercharger: N/A Turbos: N/A Tires: BFG Drag Radials 295/35-18


2003 Nissan 350Z Nitrous Express: 12.052 @ 113.670
Integrity, Tires: ET Streets


2004 Nissan 350Z Touring Nitrous: 12.055 @ 112.500
Jerome, Engine: 3.5L, Tires: MT Slciks


2005 Nissan 350Z Enthusiast Twin Turbo: 12.100 @ 115.590
Thomas Hornig, Engine: VQ35DE, Turbos: APS TT Tires: MT ET Street rear, Toyo T1R front


2004 Nissan 350Z Touring: 12.255 @ 112.910
Stephen Kirouac, Engine: VQ , Turbos: TN Single Tires: Drag Radials


2003 Nissan 350Z Single Turbo: 12.345 @ 113.370
Craig L, Engine: vq35de (stock internals), Turbos: Turbonetics 60-1 ball bearing Tires: Falken FK-451 STREET TIRES


2008 Nissan 350Z enth. Bolt Ons ONLY: 12.419 @ 109.520
andre12031948, Engine: stock Few Bolt ons ONLY, Tires: Hoosier


 


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