Engine of 2017 Suzuki GSX-R1000 and Aprilia SRV 850 ABS
Engine is the heart of all bikes and it's the reason why bikes have breakneck speeds. Compare the engine of 2017 Suzuki GSX-R1000 and Aprilia SRV 850 ABS and check out which bike has more powerful and efficient engine. 2017 Suzuki GSX-R1000 engine capacity is 999.00 cc while that of Aprilia SRV 850 ABS is 839.30 cc. Some people tune their bike's engine by increasing the cylinder bore and increasing engine displacement which make the engine wider. 2017 Suzuki GSX-R1000 vs Aprilia SRV 850 ABS engine will also provide the technical details of each bike which help you to select the best one.More than one cylinder does not give you more efficiency but uniform output, lesser vibrations and also more power and torque.4.00 cylinders are present in 2017 Suzuki GSX-R1000 while 2.00 cylinders are available in Aprilia SRV 850 ABS's engine.Increasing the bore and stroke size and the compression ratio, it will increase the engine power which in turn improve the bike performance.2017 Suzuki GSX-R1000 bore size and stroke length is 74.50 mm.The bore size and stroke length of Aprilia SRV 850 ABS is 88.00 mm.The stroke size of Aprilia SRV 850 ABS is 69.00 mm.The engine compression ratio of both the bikes is Not Available. The exhaust of both bikes is Not Available.
2017 Suzuki GSX-R1000 vs Aprilia SRV 850 ABS Power
2017 Suzuki GSX-R1000 vs Aprilia SRV 850 ABS power and torque decide which bike is more faster and has a greater acceleration. The engine power directly contributes to the top speed and performance, as more the output power, more the speed of that bike. 2017 Suzuki GSX-R1000 vs Aprilia SRV 850 ABS Top Speed depicts which bike is faster and better.The max power of 2017 Suzuki GSX-R1000 is 199.00 bhp@ 10800 rpm.Whereas, the max power of Aprilia SRV 850 ABS is 199.00 bhp@ 6000 rpm.The max torque of 2017 Suzuki GSX-R1000 is 117.60 Nm@ 10800 rpm.Whereas, the max torque of Aprilia SRV 850 ABS is 76.40 Nm@ 6000 rpm.High power generating engine is of no use without sufficient torque, as torque initiates the engine to perform the work of a moving bike and the power quickens the work of the bike by pulling the weight behind you efficiently.