1979 Ford F150

Engine specs for the 1979 Ford F150

1979 Ford F150 in blue, front quarter view

Engine specs for the 1979 Ford F150

The 1979 Ford F150 trucks marked the end of the sixth generation of the rugged F-Series pick up trucks, which spanned from 1973 to 1979. Characterized by its design and durability, the 1979 F150 came with a variety of engine options to suit different needs, from more fuel-efficient six-cylinders to powerful V8s.

Here's a breakdown of the engine specifications for all models of the 1979 Ford F150:

4.9L Inline-6 (300 CID): This engine was the base option for many F-150s, known for its reliability and decent fuel efficiency for the time. It produced around 114 horsepower and 223 lb-ft of torque.
5.0L V8 (302 CID): A step up in terms of power, the 302 V8 offered a balance of performance and fuel economy, making around 140 horsepower and 239 lb-ft of torque.
5.8L V8 (351 CID) Windsor: The 351 Windsor was another popular V8 option, known for its robustness and torque. It delivered approximately 150 horsepower and 265 lb-ft of torque.
5.8L V8 (351 CID) Modified (M): The 351M, often confused with the Cleveland, was a variant designed for torque more than outright power, with similar horsepower to the Windsor but different in technical specifications.
6.6L V8 (400 CID): The 400 was essentially a 351M with a longer stroke, offering more torque at lower RPMs, making it ideal for towing and heavy-duty applications. It produced around 158 horsepower and 277 lb-ft of torque.
7.5L V8 (460 CID): Available in certain models and regions, this was the largest and most powerful engine option for the F-150 in 1979, used primarily for heavy towing and high-performance needs. It delivered around 245 horsepower and 380 lb-ft of torque, though these numbers could vary slightly based on specific configurations and emissions controls.

These engines were paired with a variety of transmission options, including three-speed or four-speed manuals, and the C6 automatic transmission for higher torque engines. The choice of engine and transmission significantly influenced the truck's performance, fuel economy, and towing capacity.

Keep in mind, the specific output and performance can vary slightly based on factors like the truck's configuration, optional equipment, and condition. If you're looking into a specific model or have a particular use case in mind (like restoration or modification), it might be helpful to look into more detailed sources or forums dedicated to old Ford trucks, as they can offer a wealth of knowledge and specifics tailored to enthusiasts' needs.

The towing capacity of a 1979 Ford F150 can vary significantly depending on the engine size, transmission type, rear axle ratio, and whether the truck is equipped with optional towing packages. Unfortunately, detailed towing capacity specs for vehicles of this era are not as readily available or as standardized as they are for modern vehicles. However, I can provide you with some general estimates and considerations.

Engine Size and Power: Larger engines with more torque, such as the 6.6L V8 (400 CID) or the 7.5L V8 (460 CID), would naturally offer higher towing capacities due to their ability to generate more power and torque. These engines would be more suitable for heavier towing or hauling duties.

Transmission Type: Trucks equipped with automatic transmissions generally have a higher towing capacity than those with manual transmissions due to the automatic's ability to better manage engine power and torque delivery. Rear Axle Ratio: A higher rear axle ratio can also increase towing capacity, as it provides more torque to the wheels at lower speeds, although this can come at the expense of fuel efficiency.

Towing Packages: If the truck was equipped with a factory towing package, it would likely have included features such as a heavier-duty cooling system, stronger frame and suspension components, and possibly even a different rear axle ratio, all of which would contribute to an increased towing capacity.

As a rough estimate, the towing capacity for a 1979 Ford F150 could range from about 4,000 to 7,000 pounds, depending on the factors mentioned above. It's important to note that these are general estimates, and the actual towing capacity could vary. If you're planning to tow with such a vehicle, it's crucial to consider not just the maximum towing capacity but also the weight of the trailer, the distribution of weight on the trailer, and the condition of the vehicle's engine, transmission, brakes, and suspension.

For specific towing capacities and to ensure safe towing practices, it's recommended to consult a professional mechanic who is familiar with old Ford trucks or to refer to original Ford documentation or a reliable restoration guide.

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1959 PASSENGER/RANCHERO PARK LIGHT HOUSINGS

INTRODUCING A NEW ITEM, THE 1959 PASSENGER AND RANCHERO PARK LIGHT HOUSINGS!

37-41 Old Ford Trucks, Old Ford Car and Old Mercury Car Distributor

Old Ford Cars

INSTALLING A CLASSIC FORD DISTRIBUTOR INTO OLD FORD TRUCKS AND CARS

INSTALLING A CLASSIC FORD DISTRIBUTOR 1932-1941 Old Ford Trucks, 1932-1941 Ford Passenger Cars and 1939-1941 Mercury Cars with original V8 distributor: 1. Check inner caps one at a time to make sure they fit distributor housing, sand them if needed. Also check to make sure once installed rotor does not hit the inner cap. After fitting inner caps put inner and outer caps together with the spark plug wires and set aside. 2. Mount coil to distributor making sure coil brush makes contact with rotor and copper contact is not bent. 3. Make sure the mounting surface is clean and there is nothing in the camshaft slot where the distributor mounts. Check to make sure mounting bolt threads are clean and free of dirt, set bolts on top of engine for easy reach. 4. Time to mount the distributor. Put gasket on base of distributor, you can put a small amount of sealant on the gasket. Place distributor on to timing cover using fingers to turn rotor to make sure distributor is correctly seated in the camshaft. The distributor will mount flat to the timing cover when correctly installed. If the distributor is not seated correctly you can crack the distributor case when you tighten the bolts. Now you can put the three mounting bolts in and tighten. Do not over tighten(snug). 5. Install inner/outer caps to the distributor and pop the bail over to hold in place. 6. Install vacuum line to distributor. 1941-47 (6 Cylinder “G” Engine) Old Ford Trucks and Passenger Cars, 1942-1947 Old Ford Trucks and 1942-1948 Passenger Cars/Mercury Cars (V8): 1. Make sure the mounting surface is clean and there is nothing in the camshaft slot where the distributor mounts. Check to make sure mounting bolt threads are clean and free of dirt, set bolts on top of engine for easy reach. 2. Place the rotor on distributor and mount distributor cap and turn rotor slowly to make sure the rotor does not hit the inner cap. If rotor hits cap lightly file end of rotor till it clears. Remove distributor cap and set aside. Leave rotor on distributor. 3. Time to mount the distributor. Put gasket on base of distributor, you can put a small amount of sealant on the gasket, be sure not to get sealant on vacuum rubber grommet. Place distributor on to timing cover using fingers to turn rotor to make sure distributor is correctly seated in the camshaft. The distributor will mount flat to the timing cover when correctly installed. If the distributor is not seated correctly you can crack the distributor case when you tighten the bolts. Now you can put the two mounting bolts in and tighten. Do not over tighten(snug). 4. Install distributor cap and pop clips on for 42 crab cap. If you have a 46-48 with the inner and outer cap you will have to install plug wires into cap first before installing caps on distributor.

Flathead V8 Water Pump and Mount Service Guide

Flathead V8 Water Pump & Mount Service Guide1937–1948 Ford Passenger Car | 1939–1948 Mercury V8 Servicing the cooling system on a 1937–1948 Ford passenger car or 1939–1948 Mercury V8 requires more than just swapping a part. The flathead platform integrates the water pumps, front engine mounts, and cooling hoses in a way that makes access and sequencing important. Whether you’re replacing water pumps, water pump bolts, or addressing motor mounts at the same time, the process benefits from a clear plan. The parts referenced here include: 78-8501-PR – Water Pumps 78-8501-HK – Water Pump Bolts 78-6038-BDK – Motor Mounts These components are commonly serviced together on 37–48 Ford and 39–48 Mercury V8 applications due to their physical proximity and shared mounting areas. Why These Systems Overlap On these flathead V8 engines, the water pumps mount at the front of the block and are positioned near the front motor mount assembly. In many cases, removing the pumps requires relieving load from the mounts. Aging rubber mounts can sag over time, changing engine position slightly and complicating pump removal or installation. Addressing motor mounts during cooling system service can help maintain proper engine alignment. Fitment may vary slightly by model year or chassis configuration. Always confirm application for Ford passenger car versus Mercury V8 before ordering parts. Give us a call or email and we will answer your questions! Basic Removal Sequence A structured approach reduces stress on hardware and surrounding components: Drain CoolantBegin by fully draining the cooling system. Open the radiator petcock and, if equipped, block drains to remove as much coolant as possible. Remove Radiator Hoses (Upper and Lower)Disconnect both hoses from the radiator and water pump outlets. Inspect hose condition during removal. Loosen Motor Mount BoltsThe front motor mount assembly may need to be loosened to allow slight engine movement. Do not fully remove the mount until the engine is properly supported. Support the EngineCarefully jack up the engine using a wood block under the oil pan. The wood block helps distribute load. Raise only enough to relieve tension from the mounts. Remove All Eight Water Pump BoltsEach pump is secured with multiple bolts. Remove all mounting hardware evenly to prevent binding. The water pump bolt kit (78-8501-HK) ensures proper hardware replacement if originals are corroded or worn. *PRO TIP there is a bolt in each of the lower water pump outlets. Once the bolts are removed, the water pumps (78-8501-PR) can be removed from the block. Surfaces should be cleaned thoroughly before re-installation. Motor Mount Considerations The motor mount kit (78-6038-BDK) supports the engine’s front weight and isolates vibration from the frame. When mounts are deteriorated, engine position may shift slightly. Replacing mounts during water pump service is practical because access is already established and the engine is supported. Fitment should always be verified for specific Ford passenger car or Mercury V8 applications within the 1937–1948 and 1939–1948 ranges. Restoration-Focused Approach Flathead cooling system service is straightforward when handled methodically. These engines were designed for serviceability, but age introduces corrosion, hardware fatigue, and rubber deterioration. Replacing water pumps, water pump bolts, and motor mounts as a coordinated service helps maintain structural alignment and cooling integrity. Taking the time to follow proper removal steps protects original components and ensures the flathead V8 continues operating as intended. View our full selection of Flathead V8 Water Pumps and Cooling Components.