A standard fire hose is 50 feet long. A hose this length with a 2-inch radius grants about 4.36 cubic feet. This volume holds 32 gallons of water.
The difference between an analog and digitialcomputer is the type of data they process. Analog computers process measured data. A speedometer in your car is a common type of analog device. A digital computer processed descrete data (digits). In this case 0 and 1. Digital computers are most common. PC's, MAC's are digital computers. A big difference is an analog computer's output can vary even if the input is identical. A digital computer can be very precise. For instance, a gas pump might tell you that you pumped in 5 gallons of gas but you could have gotten 4.99 gallons or 5.01 gallons. If you asked a digital computer to add 5 and 6 together, you will always get 11. By the way. A gas pump is actually a hybrid computer. Although it processes measured data, that is how much fluid has passed through the gas hose, the data displayed to you, the amount of gas and how much you owe is in a digital format.
Voltage is like the pressure in your hose pipe. Current is the flow of charge and equivalent to the rate of flow of the water. Due to resistance to the water in the pipe,the pressure of the water will reduce along the length of the pipe but the quantity of litres flowing in the pipe will not change. So voltage will be maximum at the source of the voltage but as you move along the conductor there is voltage drop due to the resistance of the conductor.However, the current is same at all points along the conductor (the flow of charge is uniform at all points)
An object disrupts or enters the proximity sensor zone beams out from a sensor tap. The infra red sensor detects the object and sends an electronic signal to the solenoid valve (usually inside a control box mounted under the sink) via its signal wire. The solenoid valve opens up to let water supply through it, and water is dispensed or fed to the user via the flexible hose connected to the tap itself. More info and visual diagram can be found here: http://www.autotaps.com/how-automatic-tap-work.html
firewall to the right side of the motor (facing motor) around the front and one goes to the thermostat housing and the other goes down behind the intake manifold to the lower hose. They are not directional.
The heater control valve is used to shut off hot coolant from entering the core when the heater is in the off position. A heater control valve can be actuated by either a vacuum line or a cable from the vacuum heater control valve to the heater core. This hose should be warm; if not the heater control valve is stuck and needs to be replaced
hose or some places the local fire dept will come and fill it for you for a donation
12.5
That section of hose holds 25.5 gallons of water when it's full, which weighs about 213 pounds. To that, add the weight of the empty hose, which I don't know.
Fill a gallon bucket, timing how long it takes to do so. Then fill your hot tub using the same source... example: if you filled the bucket with a hose, then fill the tub using the same hose. Then time how long it takes to fill the tub and divide the time it takes to fill the tub by the time it takes to fill the bucket and then you know how many gallons it is.
A fire hose is used to stop a fire by its ability to transfer water. The hose will deliver water from a source through a nozzle and onto the flames. We typically find a hose connected to a pump, which provides water under pressure. The hose will deliver that pressurized water to the nozzle, and a firefighter can direct the stream as needed.
12 hours. 14,000 divided by 20= 720 720 divided by 60 = 12
I would use a water hose (lol). Seriously though, gallons is the preferred term for measuring pool capacity.
A garden hose as a means to get water, yes. A fire hose, no.
You can indeed figure this out using hydraulics formulas. However, a simpler solution. Run the water into a 5 gallon bucket, and time how long it takes to fill the bucket in seconds. Use this formula: Gallons per minute = 300 / TimeToFillBucket
A 100-foot hose with an inside diameter of five inches can hold 102 US gallons of water.
Friction between water and hose slows the water.
1.03 gallons