How fast does a 40 lb thrust trolling motor go?
It is true that the 30 lb, 40 lb, and 55 lb thrust trolling motors all top out at 5 miles per hour, but you will need the larger-sized motor when you have a larger boat. If you don’t, your boat will not be able to hit anywhere near the maximum speed.
How many HP is 30 lbs thrust?
Pounds of Thrust to Horsepower Chart
|Pounds of Thrust (lbs)||Amps||Horsepower|
How much horsepower is a 50 lb thrust trolling motor?
So every 746 watts is roughly equivalent to 1 horsepower. Using this formula the popular Newport Vessels NV-Series 55lb Thrust Trolling Motor is rated as 624 watts at the highest forward speed and so 624/746 = 0.84 and would be roughly equivalent to a 0.84 horsepower motor.
How fast will a 2.5 hp outboard go?
Tohatsu 2.5 Two-Stroke ($630; www.tohatsu.com) power: 2.5 hp weight: 26 pounds top speed: 5.4 mph noise at full throttle: 84 dB-A. The Tohatsu 2.5 was the only two-stroke we tested. As expected, it’s the lightest and least expensive.
What is the strongest trolling motor?
Minn Kota has introduced the most powerful trolling motor on the market featuring 112 pounds of thrust.
How many pounds of thrust do I need for a trolling motor?
General rule of thumb: you need at least 2 lbs. of thrust for every 100 lbs. of fully-loaded boat weight (people and gear included). If things like wind or current are major factors where you fish, you’ll want a little extra thrust.
How long will a deep cycle battery run a trolling motor?
Almost 5 hours doesn’t seem too bad, but that is really a max runtime in ideal conditions. Reality is likely to be less. If the battery is old, damaged or not fully charged then you will not get the rated amp hours from it, reducing your runtime. Significant cold or hot weather will also reduce your runtime.
How much thrust does a 15 hp outboard motor have?
A typical displacement vessel with a 15 hp motor will have a thrust of about 200 kg.
Can thrust be converted to horsepower?
Thrust to Horsepower Definition
Converting a thrust to a horsepower involves multiplying the total pound-force of thrust by the velocity of the object.