The crankshaft does 2 full turns to make 1 cycle in a 4 cycle engine so, 4 is the answer.
In a four-stroke engine, one complete cycle consists of four strokes: intake, compression, power, and exhaust. This cycle requires two complete revolutions of the crankshaft, which equals 720 degrees of crankshaft rotation. Therefore, 720 degrees of crankshaft rotation are needed to complete the four-stroke cycle.
Two complete revolutions.
In a straight-six (I6) diesel engine, each cylinder fires once every two revolutions of the crankshaft. Since there are six cylinders, it takes a total of 720 degrees of crankshaft rotation (360 degrees for each complete revolution) to fire all cylinders. Therefore, all cylinders fire once in 720 degrees of crankshaft rotation.
720 degrees
720 degrees
The bearings on the crankshaft are worn out. A complete engine overhaul is needed.
all the parties in the supply process know exactly how many parts are needed to complete a cycle and how much time is needed in between cycles
american, venezuelan revolutions bacause they needed slavery to do there plantations and also used them for trade.
The Engine can turn over with out gas. The started is engaged and turn the crankshaft, just as one would turn the engine over by hand. For sustained revolutions however, gas is needed to react in the engine chambers
It depends on the type of engine. In a four-stroke engine, there are four strokes - intake, compression, power (combustion), and exhaust - required to complete one full rotation of the crankshaft. In a two-stroke engine, there are two strokes - compression/ignition and exhaust - needed to complete one rotation.
The key components of the CPI (Clocks Per Instruction) in computer architecture are the clock cycle time and the number of instructions executed. The CPI measures the efficiency of a processor by indicating how many clock cycles are needed to execute an instruction. A lower CPI indicates better performance, as it means fewer clock cycles are needed to complete an instruction.
The number of revolutions needed to move a screw block 1 inch depends on the screw's lead, which is the distance the screw moves linearly with one full revolution of the crank. For instance, if the screw has a lead of 0.1 inches, it would take 10 revolutions to move the block 1 inch. To determine the exact number of revolutions, you would divide 1 inch by the lead of the screw.