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What does torque do in a bike?
In other words, it’s the amount of force or twisting force that is available at the wheels to propel the bike further. Such bikes that consist of lower torque can help in moving the bike at a faster speed while having higher torque can enable the bike to move greater loads.
What is BHP torque?
What is torque and what is horsepower? In fact, brake horsepower is derived from a calculation that relies on torque: BHP = Torque X RPM / 5252. Defined simply, multiply the torque by the axis’s rotational speed per minute (RPM) and you’ll get the engine’s final power output.
Which is better torque or BHP?
To keep it short and sweet, BHP affects the top speed and acceleration of a car while torque affects the amount of load you can carry without performance degradation. Take for example Kawasaki Ninja H2 which is built for speed. It has the power of 197 BHP and 134 Nm torque.
What is the difference between BHP and torque in a bike?
BHP (Brake Horse Power) is the common rating that we consider while measuring the power of a bike. Technically it is the maximum power produced before it is delivered to the drive train. Torque is the turning effect produced by the engine. Peak Torque is available in lower RPM’s. The naive categorization is : In lower gears we get more torque.
What is the bhp of 20 lb ft of torque?
Suppose in a bike 20 lb ft torque is available at the wheels at 5000 rpm so the BHP will be (torque*rpm)/5252 = 19.04 . For another bike let us assume that the same torque is available at 6000 rpm so the BHP will be (torque*rpm)/5252=22.84 .
What is torque in a motorcycle?
Torque is nothing but the rotational force that is available at the wheels. In other words, it’s the amount of force or twisting force that is available at the wheels to propel the bike further. Such bikes that consist of lower torque can help in moving the bike at a faster speed while having higher torque can enable the bike to move greater loads.
How much BHP does a VTEC produce at 4700 rpm?
Now using the formula (bhp = torque * rpm/5252) we get 97.34 * 4700 /5252 = 87.10 bhp. So the Vtec produces 87.10 bhp at 4700 rpm. IMO the ideal torque curve would be if an engine were to produce max torque as low as 2000 rpm and keep it there for as long as possible.