C = cupped end - the type you would slide over another pipe to make a sweat connection
FTG = fitting end - the type that slides inside a cupped end, also called a "street" fitting
M = male pipe threads
FE (sometimes listed as just F, not correct)= female pipe threads
The "X" is "by", so C X C is "cupped by cupped", a fitting with two ends such as a coupling or elbow, both cupped for sweating onto a pipe or fitting end.
C X C X C would be a fitting with three ends such as a tee, all cupped.
C X FTG could be a street elbow or a reducing bushing, one part slides over a pipe, the other inside another cupped fitting.
C is indeed a cupped fitting. CMP is compression, but there is no such thing as a copper fitting with a compression connection. There are brass and plastic compression fittings that will fit copper pipe, but not copper compression fittings.
Copper x copper, which means the fitting is sized for copper pipe and usually needs to be soldered unless it is a compression type fitting.
You cannot solder Steel BUT you can braze steel and copper and you can thread steel and then use a copper x female adapter Or finf a steel fitting and use a C x M adapter
By the use of Flagg Flow T.P Fitting adapters and Cx M or C x F adapters attached to the T.P fitting T.P = threadless pipe
1.5 x 25.4 = 16.8 x size of spool - the length to the plan ------------------------------------------------------------------------------ new answer A is baseline of a triangle B is the Vertical Line of a triangle C is the diagonal line or Hypotenuse C is what you want using a 45 degree A x 1.4142 = C B x 1,4142 = C A^2 x B^2 = C^2 the fitting takeout to find cut length of pipe is TAN(1/2 degree of turn) x radius if the fitting or Tan(22.5) x Fitting Radius Fitting Radius has 3 options Short Radius = 1x pipe size Long Radius = 1.5 x pipe size 3 Radius = 3 x Pipe size
110. just multiply the two measurements for sq ftg
A fernco or rubber fitting. This made of rubber and had hose clamps on it. You should ask for assistance at a hardware or plumbing shop for a 2" Plastic X 2" Copper Fernco or rubber coupling.
C x M adapter C x F adapter PVC x F adapter PVC x M adapter or Thread if your really using "pipe" in lieu of "tubing"
The coefficient of linear expansion for copper is 17 x 10^-6 per degree Celsius. Given the temperature change from 9.0 to 87 degrees C, the temperature change is 78 degrees C. Thus, the expansion of the copper pipe would be 10.000 * 17 x 10^-6 * 78 = 0.01326 meters or 13.26 mm.
Ah, that's a big number! In Roman numerals, 9999999 is written as IX CM XC IX. Each letter represents a different value, and when combined, they create this beautiful Roman numeral that tells a story of patience and perseverance. Just like painting a masterpiece, sometimes it takes many small strokes to create something truly magnificent.
To calculate the energy transferred when heating copper, you can use the formula: Energy = mass * specific heat capacity * temperature change. The specific heat capacity of copper is 0.385 J/g°C. Plugging in the values, you get: Energy = 3kg * 0.385 J/g°C * (220°C - 20°C).
Q=0.75 g x 0.385 J/goC X 22OC
With x being lead nitrate, and b copper sulfate. a=atoms, and c=carbon.