Well, darling, the difference between M6 x 1 6g and M6 x 1 6h thread gauges lies in their respective tolerance classes. The "6g" gauge has a looser tolerance, suitable for general applications, while the "6h" gauge boasts a tighter tolerance, ideal for more precise threading requirements. So, pick your poison depending on how snug you want those threads to be!
6g+3000g - 3006g OR 3.006kg
3/2g + 1/6g = -3 9/6g + 1/6g = -3 10/6g = -3 5/3g = -3 5 = -9g g = -5/9
If: -6g+36 = 12 then the value of g is = 4
If: -6g+36 = 12 then the value of g is = 4
6000 mg
Metric fastener size designation nomenclature. As fully explained in ISO 965-1, Sect. 5, metric fastener size designations always begin with capital M or MJ followed by fastener nominal diameter and thread pitch, both in units of millimeters (mm), separated by the symbol "x", as follows. M10 x 1.5-6g-S means metric fastener thread profile M, fastener nominal size (nominal major diameter) 10 mm, thread pitch 1.5 mm, external thread tolerance class 6g, and thread engagement length group S ("short"). If referring to internal thread tolerance, "g" would be capitalized. A fit between threaded parts is indicated by internal thread tolerance class followed by external thread tolerance class separated by a slash; e.g., M10 x 1.5-6H/6g.
please answer me for this question
Yea they grow back :)...I have 2g s also...and if I dnt have them in for a week they shrink down to a 6g /: but if you want them to grow back just leave them out for about a month...
6g
1g = 100cg 6g x (100cg/1g) = 600cg
1g = 100cg 6g x (100cg/1g) = 600cg
6g+3000g - 3006g OR 3.006kg
3/2g + 1/6g = -3 9/6g + 1/6g = -3 10/6g = -3 5/3g = -3 5 = -9g g = -5/9
Rhodamine 640 is a red-emitting dye while Rhodamine 6G is a green-emitting dye. Rhodamine 6G has a higher fluorescence quantum yield and is more photo-stable compared to Rhodamine 640. Additionally, their absorption and emission wavelengths differ, with Rhodamine 640 having higher absorption and emission wavelengths than Rhodamine 6G.
g = (-1). 18 + 6g = -12g 18 = -12g - 6g 18 = -18g -1 = g
This sounds like an easy question, but the answer depends on which type of thread call-out you are trying to read. There are multiple types of screw threads and each has its own call-out; but many are similar in syntax. The most common screw thread style in the USA is the UN-series. These screw threads are specified in ANSI/ASME B.1. An example of a UN-series thread call-out is: 1/4"-20 UNC-2A Decoded it is: Nominal Major Diameter (1/4")-Threads-per-inch (20) Type of thread (UN) Sub-thread-series (C)-Class-of-fit (2A) An example of the M-series thread call-out is: M16x1.5-6g Decoded it is: Type of thread (M) Nominal major diameter (16) Thread pitch (1.5) class-of-fit (6g) For more detailed information here is a link to a nice PDF book which gives very clear basic information on screw threads: http://www.ring-plug-thread-gages.com/ti_starret.pdf. I do hope that you found this information helpful.
6G means the pipe is positioned at a 45o angle.