9) Speed-Torque Curves – practical implications

Having said all that, let's examine the real life situation of two different Engines having the same ‘peak torque’ but occurring at different Rpm levels. One is designed for a Utility Vehicle and the other for a pleasure to drive Passenger Car.

A close look at the above pair of Torque/Bhp/Rpm curves would reveal that:

ii) Like wise, the Car’s peak torque is designed to occur at 5000 Rpm and therefore, peak Power @ 65 KW at 6000 Rpm.

iii) Both Engines develop the same torque of ~ 110 NM @ 3750 Rpm and therefore, the same Power of ~ 42 KW at this Rpm.

iv) To illustrate how the two different set of Curves affect the ‘feel’ of the particular Vehicle, let’s assume that both are ‘cruising’ at 3750 rpm coz at this point, both produce the same amount of Torque.

v) Now let’s assume that both vehicles under such a condition hit an up gradient and consequently, the engine rpm ‘tends’ to drop, say, to 3000 rpm. Consequently, in case of the Car, the Torque drops too and therefore, to keep it going at the same linear speed, it’d need a down-shift to keep the engine from stalling eventually – resulting in a drop in its linear speed over the gradient.

vi) On the other hand, in case of the Utility Vehicle, the ‘impending’ drop in its engine rpm results in an increase of the torque available and therefore, by increased throttle opening it’d respond positively and be able to keep going up the gradient at the same linear speed in the same/cruise gear.

10) Conclusion

Since in case of the Car, coz its peak torque occurs at a later/higher Rpm, it’d accelerate much better through the gears compared to the utility vehicle. Further, since the Car’s max power also occurs at a higher engine Rpm and is higher than the Utility Vehicle’s, it’s ‘top’ speeds will also be higher. This of course assumes that the other factors affecting ‘speed’ such as their respective wind resistances and ‘gross’ weights are identical too.

On the other hand, for ‘lugging’ around City b2b traffic, the Utility Vehicle is going to demand a lot fewer Gear Changes than the Car – which would be a pleasure to push around on the Highways!