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How long would it take, (If the ocean were drained) to fill it up with a sink faucet, a hose, a fire hydrant?Setting aside the fact you couldn’t do it (because where would the water come from? I mean literally where would the water come from?) the volume of all the oceans on earth is 1.335 billion cubic kilometers.This equates to about 1.335e+21 liters.Your average tap produces around 10 litres per minute, which makes it about 2,539,954,337,899,543 years, or about 25,399,543,378,995 centuries.A powerful hose has a flow rate of 24 gallons per minute, or around 110 litres. So it’s about 11 times faster, which - lets be honest, is not going to make that much of a difference - we are talking about BILLIONS of centuries, so even if it is eleven times faster it will still take forever.The most powerful hydrant I can find seems to be 1500 gallons per minute, which would be around 63 times as fast as the hose, so about 693 times as fast as the tap. So while it would still take a lot of time it cuts it down to 36,651,577,747 years which is slightly more manageable I guess.In short - it would take forever. Far longer than you could do it.However even if you could find a way to do it, the problem you would have is there would be no water - the water you would need to use to fill it would have to come from the water that was drained. So unless you can find a 1.335 BILLION cubic kilometre storage tank (which does seem improbable at best) to keep it in, you are somewhat screwed :)
How does the fire engine get water out of its hose to put out fires?From either a) its internal water tank, or more likely b) when fighting a sustained fire, from the municipal water mains via fire hydrants.Our fire engines typically carry 750 gallons of water in an internal tank.Basically one of our 1.5" attack line flows water at 175 gallons per minute. That'll drain our tank in 6 minutes of continuous operation. That's enough to handle say a car fire or rubbish fire or other miscellaneous small fire with tank water just fine.But for a larger fire, basically anything involving a structure, we need more water. A 2.5" line (bigger fire needs bigger water to put it out to put it simply) flows at 250 gallons per minute, that'll empty the tank in half the time, 3 minutes. And the big deck gun, the turret we have on top can flow at 500 gallons per minute…that's only a minute and a half.So…we'll hook up a supply line (line=hose) to a fire hydrant, and thus get water directly from the municipal water main system.That 1.5– 3minutes should be enough time to start initial attack/defense, get water on the fire while hooking up to the hydrant, which will then effectively give you unlimited water.Now it is theoretically possible to simply hook up a hose line to the hydrant and go directly to the fire with it….but that's almost never done because you have a complete lack of control of the water that way. By going into the engine first, with it's own water pump, you can control exactly how much water at how much pressures go where, and when you want it too. That's why securing a water supply from the hydrant is so critical and why, if you park in front of one, even for just a “minute” you might find this has happened to you:
How can I fill out the form for the December test in Thapar, Patiala?http://www.thapar.edu/images/adm...Open the above link and you will get all the information you want.All the best!
If I change the output hose of my 100 GPM pump from a 6" diameter to a 3" diameter hose, how will the force of the thrust of the water coming out of the hose be affected?100 gallons per minute/6 inch diameter hosepipe gives a velocity 4 times smaller than for the 3 inch hose. 100 gallons will come out every minute, however in the 3 inch hose, these gallons will come out 4 times faster, so they will carry more force. Change the diameter to 0.001 inches and you will have a mach 3 water jet which can cut steel.
How big of a pump do I need to pull water out of my pool up 15 ft and thru 300 ft of 3-4 in hose and back to pool?Not a very big one.You are wanting to use solar energy to heat a pool?Pick up a 1/4 to 1/3 HP circulation pump, plumb it into a supply line that goes to the bottom of your pool.Plumb the discharge into your 300 feet of black hose.Use a garden hose to push water through the pump intake, up through the hose, and back into the pool. This purges out the air.Turn on the pump. Gravity will pull the water from the roof back down, so your pump will have very little actual “head”.Of course, wire the pump up properly, use a GFCI and proper grounding, secure your hose properly, etc.This is a very simplified answer to your question, and do be careful. The water coming back into the pool can be quite hot if the sun is directly over the heating loop.
How can I fill out Google's intern host matching form to optimize my chances of receiving a match?I was selected for a summer internship 2016.I tried to be very open while filling the preference form: I choose many products as my favorite products and I said I'm open about the team I want to join.I even was very open in the location and start date to get host matching interviews (I negotiated the start date in the interview until both me and my host were happy.) You could ask your recruiter to review your form (there are very cool and could help you a lot since they have a bigger experience).Do a search on the potential team.Before the interviews, try to find smart question that you are going to ask for the potential host (do a search on the team to find nice and deep questions to impress your host). Prepare well your resume.You are very likely not going to get algorithm/data structure questions like in the first round. It's going to be just some friendly chat if you are lucky. If your potential team is working on something like machine learning, expect that they are going to ask you questions about machine learning, courses related to machine learning you have and relevant experience (projects, internship). Of course you have to study that before the interview. Take as long time as you need if you feel rusty. It takes some time to get ready for the host matching (it's less than the technical interview) but it's worth it of course.