B. 127
168.8 cubic inches
One cylinder would have a displacement of 21.2 cubic inches. By multiplying this displacement by the number of cylinders, in this case 6, the total displacement would be approximately 127 cubic inches. Area of circle pi x radius squared x length of stroke = one cylinder's displacement. be sure to use same units for area as well as stroke.
Cylinder diameter is the Bore.Bore is 73.0 mm (2.87401575 inches)Stroke is 77.4 mm (3.07424409 inches)
9.4247 cubic inches
formula for displacement: A=(pi)r^2 A is Area Pi is 3.14 and R is the radius of the cylinder, this is the piston in Square inches. then multiply that by the distance the piston travels, that is the displacement of one cylinder to find total engine displacement multiply that by how many pistons are in the engine to get total engine displacement
2 inches
Cubic inches is the total volume of all cylinders. If you wanted to know the cubic inches of a particular engine you would measure the diameter of the cylinder bore and the stroke of the crankshaft, then use your calculator to figure out the total volume. The formula for the area of a circle is pi times the radius squared. The formula for the volume of a cylinder is area of the circle times length (stroke) of the cylinder. Once you have the volume of the cylinder you can multiply that number by the number of cylinders for total volume (displacement).
The volume of a cylinder with a diameter of 10 inches and height of 20 inches is 1,570.8 cubic inches.
The volume of a cylinder with a height of 15 inches by 12 inches in diameter is: 1,700 cubic inches.
The volume of a cylinder with a diameter of 30 inches and 36 inches long is 25,446.9 cubic inches.
The volume of a cylinder 7 inches high by 4 inches in diameter is: 87.96 cubic inches.
The volume for a cylinder with a diameter of 60 inches and a length of 29 inches is: 82,000 cubic inches.