Want this question answered?
The answer is 12000 hours.
12000 seconds is equal to 200 minutes or 3 hours and 20 minutes.
1 hour = 60 minutes so 12 hours = 12 x 60 = 720 minutes
500 days
12000 hours darling!
24 hours = 1 day12,000 hours = (12,000 / 24) = 500 days
1 day = 24 hours so 500 days = 12000 hours. Simple!
There are 60 seconds in one minute so 12000 seconds divided by 60 gives 200 minutes, or 3 hours and 20 minutes.
There are 60 minutes in 1 hour so in 200 hours there are 200 x 60 minutes, which is 12000 minutes.
40-45 if you all you have is a 2500 W inverter and depending on how efficient those solar modules are. But I wouldn't guarantee that small of a solar system running those 12 PC's. First, how long are you powering these 12 PC's each day and how much electricity do they use? If it's only 6 hours/day, then you're fine. But if you'll leave them on for 12 hours/day, you'll need a bigger system. If they only use 100 Watts each, then 12 hours is okay. But if they use 200 Watts of electricity each, then you'll need a bigger system. If it's 12 hours/day and 200 Watts/ P then you'll be using 28.8 kWh/day (12 PC's * 12 hours/day * 200 W/PC). Secondly, where are these PC's/ solar panels going to be located? I need to know how much the Sun will shine on them (sun hours, or solar hours per day). I'm guessing they'll be in Haiti in which case the Sun gives about 6 hours of sunlight/day. Now, I'm going to divide 28.8 kWh/day by 6 hours/day and say you need a 4.8 kW system, not the 2.5-3 kW system that 2500 W inverter is good for. See a 4.8 kW solar system is going to produce about 80% AC power or 3.8 kW AC. That 2500 W inverter will blow with that much electricity. So, I'm either going to buy two (2) 2500 W inverters, or one (1) 5000 W inverter. And I wouldn't buy 40-45, 65 W modules either - I'm thinking 200 W modules would better suit. For your one 2500 W inverter, you'd only need 12-14, 200 W modules. For a 4.8 kW system, I'd buy 24-28, 200 W modules. 40-45, 65 W modules if you've chosen a 2500 W inverter and expect it to run your 12 PC's. Be very carfeul with these calculations though! Wisconsin receives two hours of sunlight a day, so the number triples. Loss for the inverter and the batteries should also be considered, as well as temp issues. Solar panels do not work as well when warm. You also need to consider the issue of cloudy days. Will these need to run under all circumstances? Wind may also be added. To ensure operation of these systems 25 hours a day in Haiti I came up with 120 panels and 250 for Wisconsin.
The best combination of inverter N battery for the 2KVA N 3 hrs backup is the 3x 200AH. The 3x 200AH is a lithium battery that will last up to ten hours.
12000 miles is about 38 hours in great nonstop driving conditions