Yes, that is correct
Compression ratio is exclusive to each cylinder, though they will all have the same result if they are the same dimensionally ( and they always are) > Divide the total engine capacity by the number of cylinders, this gives the capacity or swept volume of each cylinder (bore * stroke) > So in a 2.0 (2000 cc) litre 4 cylinder engine, each cylinder has a 2000 / 4 = 500 cc swept volume (bore * stroke) > The combustion chamber is the volume remaining at top dead centre (TDC) > Compression ratio = volume at BDC (swept volume + volume at TDC) / volume at TDC
Given a cuboid it is always possible to have a cylinder with the same volume.
no
The cone has 1/3 of the volume of the cylinder.
The volume of a cone is 1/3 of the volume of a cylinder with the same radius and height
Compression ratio is exclusive to each cylinder, though they will all have the same result if they are the same dimensionally ( and they always are) > Divide the total engine capacity by the number of cylinders, this gives the capacity or swept volume of each cylinder (bore * stroke) > So in a 2.0 (2000 cc) litre 4 cylinder engine, each cylinder has a 2000 / 4 = 500 cc swept volume (bore * stroke) > The combustion chamber is the volume remaining at top dead centre (TDC) > Compression ratio = volume at BDC (swept volume + volume at TDC) / volume at TDC
Stroke volume and swept volume are same in any reciprocating engine/compressor.
Water displacement can accurately find the volume of substances as it represents the same amount of space or volume. An object placed into the water will displace the same amount of water volume as its own volume.
Given a cuboid it is always possible to have a cylinder with the same volume.
no
If the area of the base and the height of the cylinder and the cone are the same, then the volume of the cone will always be one third of the volume of the cylinder.
The cone has 1/3 of the volume of the cylinder.
The volume of a cone is 1/3 of the volume of a cylinder with the same radius and height
Same as a cylinder
1 to 4
AIM: to find the volume of a piece of cork.APPARATIES: a displacement can, wooden block, beaker, measuring cylinder, sinker (ex. pebble) ,a piece of cork and piece of string.ACTIVITY:set up the appartus.(put the displacement can on the wooden block and place the beaker close to the wooden block~under the displacement can's sprout~fill the displacement can with water and allow excess water to flow into the beaker.~discard this water, u don't need it~place the dry measuring cylinder directly below the sprout.tie the stone to the string and lower it carefully into the displacement can.allow the displaced water to collect in the measuring cylinder.the amount of water collected is the volume of the stone. record it as VOLUME A.remove the stone from the displacement can and repeat steps 2 & 3.tie the cork on the same string you used to tie the stone and lower both of them carefully into the displacement can.allow the displaced water to collect in the measuring cylinder and record it as VOLUME B.the difference between volumes A & B ,is the volume of the cork.this is silly......because i never answered what the person asked....but i gave an answer.
Yes.