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Draw a rectangle for the side of the cylinder and on top and bottom of this rectangle 2 circles for the base and the top of the cylinder The rectangle width would be the diameter of the circle large and the same height that the cylinder
a cylinder has two faces on the top and bottom.
The bottom of a graduated cylinder is flat, so it can sit on a table while you are doing your work.
A cylinder has two edges one at the top and one at the bottom.
The base of a cylinder is the circle on the bottom, the area being the area of that circle.
You measure from the bottom of the meniscus. The top of the meniscus can vary wildly depending on the diameter of the tube, or the air pressure, or room temperature.
Generally the nominal diameter of cylinder bore is kept little smaller at cylinder head than at the bottom. The engine head will be generally heat and it tends to expand for these high temperatures. To prevent the bore diameter at head to exceed diameter at bottom,piston engine bore is ground with a slight choke.
The column with the smallest diameter has greater pressure and the column with a larger diameter has less pressure.
If the barometer is in the same place where you're measuring the air pressure, then they're exactly equal.
You would just trim off the paper that sticks out the bottom or top.
Yes and no, provided the pressure is kept constant, what appears to be more pressure is actually more volume. it appears to be more pressure, but it is an optical illusion, put a pressure gauge and be amazed.
If the barometer is in the same place where you're measuring the air pressure, then they're exactly equal.
Draw a rectangle for the side of the cylinder and on top and bottom of this rectangle 2 circles for the base and the top of the cylinder The rectangle width would be the diameter of the circle large and the same height that the cylinder
It's your switchbox, I just did this on my 75hp 4cylinder.
That depends entirely on what material it's made from ! The dimensions are irrelevant unless you tell us what it's made from !
All liquids have a surface tension. This tension creates a meniscus or curve on the surface, most noticeable in small diameter tubes or cylinders. The meniscus of water curves up the sides of the cylinder, while heavy liquids like mercury curves down the cylinder. You should always measure light liquids at the bottom of the meniscus and heavy liquids at the top of the meniscus.
VariablesD = Cylinder diameter [L].Dbot = Cone bottom diameter [L].Dtop = Cone top diameter [L].h = Cone height [L].L = Cylinder length [L].T = Top width of liquid in cylinder [L].y = Liquid depth in sphere or cylinder [L].z = Horizontal to vertical side slope of cone. zDbot.Ø = Angle representing how full the cylinder is [radians or degrees]. An empty cylinder has Ø=0o, a cylinder with Ø=180o is half full, and a cylinder with Ø=360o is completely full.