How many horsepower does a firebirdv6 engine have?
200@5200 rpm Flywheel Torque 200@3500 rpm 225@4000 rpm 225@4000 rpm 225@4000 rpm Cam Specs How Bore and Stroke affect Cubic Inches Pulse Width / Duty Cycle Table at various RPM’s 3.4 Wiring Pinouts(Coming Soon) 3.8 Wiring Pinouts Part Numbers GM Performance Parts(Coming Soon) Formulas / Calculations 3800 History
How does the 3800 computer work on a Firebird?
The 3800 computer has several Modes of operation: STARTING MODE When the ignition is turned ON the PCM energizes the fuel pump relay for two seconds, allowing the fuel pump to build up pressure. The PCM then checks the Engine Coolant temperature (ECT) sensor and the Throttle Position (TP) sensor.
How big is the L36 3800 Series 2 engine?
L36 3800 Series II Configuration OHV 60° V6 OHV 90° V6 OHV 90° V6 OHV 90° V6 Displacement 3.4L (204 ci) 3.8L (231 ci) 3.8L (231 ci) 3.8L (231 ci)
When did the GM 3800 Series 2 engine come out?
The GM 3800 Series II engine, introduced in 1995, is quite a different engine from its predecessor, the Series I engine. While the stroke for the 3.8L engine remained at 3.4” (86 mm), and the bore remained at 3.8” (97 mm), the engine architecture changed dramatically.
200@5200 rpm Flywheel Torque 200@3500 rpm 225@4000 rpm 225@4000 rpm 225@4000 rpm Cam Specs How Bore and Stroke affect Cubic Inches Pulse Width / Duty Cycle Table at various RPM’s 3.4 Wiring Pinouts(Coming Soon) 3.8 Wiring Pinouts Part Numbers GM Performance Parts(Coming Soon) Formulas / Calculations 3800 History
The 3800 computer has several Modes of operation: STARTING MODE When the ignition is turned ON the PCM energizes the fuel pump relay for two seconds, allowing the fuel pump to build up pressure. The PCM then checks the Engine Coolant temperature (ECT) sensor and the Throttle Position (TP) sensor.
L36 3800 Series II Configuration OHV 60° V6 OHV 90° V6 OHV 90° V6 OHV 90° V6 Displacement 3.4L (204 ci) 3.8L (231 ci) 3.8L (231 ci) 3.8L (231 ci)
How much horsepower does a Firebird flywheel have?
Flywheel Horsepower 160@4500 rpm 200@5200 rpm 200@5200 rpm 200@5200 rpm Flywheel Torque 200@3500 rpm 225@4000 rpm 225@4000 rpm 225@4000 rpm Cam Specs How Bore and Stroke affect Cubic Inches Pulse Width / Duty Cycle Table at various RPM’s 3.4 Wiring Pinouts(Coming Soon) 3.8 Wiring Pinouts Part Numbers GM Performance Parts(Coming Soon)
What are the torque specifications for a Firebird?
Gen IV – REAR Caliper Bleeder Valve Type: 43.39 Gen I/II – Front Flex Hose to Caliper Type: 40.67 Gen IV – FRONT Brake Hose to Caliper Banjo Bolt Type: Bolt 29.83 Gen IV – REAR Brake Hose to Caliper Banjo Bolt Type: Bolt 12.5 16.95 Type: 12.5 16.95 Type: Brake Master Cylinder To Power Brake Booster 32.54 Type: 32.54 Type: 13.56
What should head torque be on Ford 3.8?
Loosen the long bolts to between 29 and 37 foot-lbs. of torque and the short bolts to between 7 and 15 foot-lbs. of torque. Then, tighten each bolt an additional 90 degrees. The last two steps–the loosening and then the 90 degree tightening–should both be performed on each bolt before moving to the next bolt.
Flywheel Horsepower 160@4500 rpm 200@5200 rpm 200@5200 rpm 200@5200 rpm Flywheel Torque 200@3500 rpm 225@4000 rpm 225@4000 rpm 225@4000 rpm Cam Specs How Bore and Stroke affect Cubic Inches Pulse Width / Duty Cycle Table at various RPM’s 3.4 Wiring Pinouts(Coming Soon) 3.8 Wiring Pinouts Part Numbers GM Performance Parts(Coming Soon)
Gen IV – REAR Caliper Bleeder Valve Type: 43.39 Gen I/II – Front Flex Hose to Caliper Type: 40.67 Gen IV – FRONT Brake Hose to Caliper Banjo Bolt Type: Bolt 29.83 Gen IV – REAR Brake Hose to Caliper Banjo Bolt Type: Bolt 12.5 16.95 Type: 12.5 16.95 Type: Brake Master Cylinder To Power Brake Booster 32.54 Type: 32.54 Type: 13.56
What are the torque specifications for a 3800 engine?
3800 II – EGR Valve to Intake Manifold Adapter Type: 37 444 50.17 Type: 55 660 74.57 3800 II – Engine to Transaxle Bolts Type: Bolt 50 600 67.79 3800 II – FRONT Engine Mount to Frame Nuts Type: