No, it appears that the UK and US garden hose fittings are not the same standard size. Apparently, the US standard fitting is a little bit bigger than the UK version.
In technical terms, "A234" refers to the ASTM standard specification for piping fittings of wrought carbon and alloy steel. On the other hand, "SA234" stands for the ASME standard specification for the same type of piping fittings. The key difference lies in the organizations that have developed these standards - ASTM (American Society for Testing and Materials) and ASME (American Society of Mechanical Engineers), respectively. Both standards provide guidelines for the manufacturing and testing of piping fittings, with ASME typically being more stringent due to its focus on pressure vessel and boiler applications.
Should be the same as a standard counter height, 36".
They are just about the same
DC Voltage is kind of like water pressure. It needs a conductor (usually a wire) in order to travel. The same way you need a garden hose to carry water pressure. Voltage will drop due to resistance in a very long conductor if a significant current is being drawn.
That same question was in my science test! The answer is a siphon :D
the same way as a garden hose
You get balloons and fill them up with water Get Water guns-do the same have a garden hose and have fun!
The homophone of hose is "hoes," as in the plural of the word "hoe" - a garden implement used for weeding and breaking up soil.
No, fittings go over the pipe
Hose is in two parts. The lower hose is usually the one that gets worn and begins to leak. The hose disconnects near the battery and at the pump. It just pulls apart with friction fittings. The pump end is a little more difficult to see but separates the same way.
There should be some fittings on the air tank which are plugged... you can put a female 1/4" air line coupler there (although the coupler itself will probably have to go inside a brass pipe connector into it and air it up that way, or you can use a male end with a shutoff valve. Then, you simply attach an air hose to it and let it air up (make sure the hose couplers and the fittings on the hose are the same type).
Area CalculationThe area of the hose section is equal to pi (3.1416) multiplied by the square of the radius. Garden hose comes in a variety of sizes, from 1/2-inch to 1-inch. 3/4-inch hose is typical. Using that as an example, the square of the radius (.375 multiplied by .375) equals .140625. That result multiplied times pi equals .4417875 square inches.Volume CalculationTo calculate the volume, the length of the hose must first be converted to the same measurement standard. 100 feet of garden hose is 1,200 inches. 1,200 times .4417875 equals 530.145 cubic inches.Volume ConversionTo state the volume in a more meaningful manner, cubic inches should be converted to a more common measure of liquid volume. One gallon of water contains 231 cubic inches. So, the 100-foot long, 3/4-inch diameter garden hose holds 2.3 gallons of water (530.145 divided by 231).
they are the same because they both push out fluids to relieve pressure. they differ because one is to the digestive system and the other is to water things in a garden, and or other places. i may be wrong please don't judge just a kid. thanks :)
Yes, but the same one's may come back. You should use the freeze spray then knock them down.
Mounted and free standing garden hose reels work just about the same. It all comes down to personal preference with this one. You can move a free standing reel anywhere, which makes it convenient for larger yards, or moving. However, mounted hose reels also work nicely and may feel out of the way while attached to your home.
Loosen one cooling line at the radiator, and let the fluid drain into a pan. When the fluid has stopped draining remove the other end of the hose. Pull the hose out and put the new one in following the same path. Do the same for the other hose, then refill the transmission using the dipstick to make sure to not over flow the system. Check the fluid level and all fittings after a short drive.
A 1988 Volvo 240 has three power steering hoses: pressure hose from pump to rack, return hose from rack to reservoir and intake hose from reservoir to pump. Pressure hose consists of a rubber middle section and two steel lines with flare fittings. To replace it you will need a flare nut wrench to unscrew them and to screw the fittings of the new hose back in. Do not use a regular wrench, it can strip the soft fittings easily. The return hose is a plain 3/8" high pressure hose that slides onto nipples of the reservoir and rack. The intake hose is also a plain hose attached with regular hose clamps, but it is 5/8". The replacement procedure is the same. To remove, loosen the clamps with the appropriate screwdriver and then slice the hose lengthwise from the end to 1/4 inch past the end of the nipple with a boxcutter. This is done so that the hardened old hose comes off easier. This is very important on the reservoir, because the smaller nipple is easily broken off, which means you have to replace the whole reservoir to the tune of $50 or so. Be sure to pull the hose straight off, not at an angle. To install new hose, slide clamps onto the hose, slide hose onto nipples, tighten the clamps, fill reservoir, run the engine and check for leaks. Keep in mind that when you disconnect any end of any of the hoses, some fluid will come out, so you might want to keep a bunch of rags handy.