So the available 100 amp hours from the battery divided by 0 69 equals 145 hours.
Amp hours from solar panel.
Then take the battery capacity which measured in ah and divide it by the amp rating the result from prior computation of the solar panel and then adding 10 of the charging time to it.
My 300 horsepower truck reached a top speed of 80 miles per hour during my 150 mile road trip.
First you will have to determine the ampere per hour rating of the solar panel by dividing its power generation rating given in watts by the voltage of the battery.
For the sake of example if you are getting 5 hours of direct sunlight per day in a sunny state like california you can calculate your solar panel output this way.
To clarify some of the mystique involving watts amps and amp hours let s begin with a 100 watt solar panel that produces 5 amps during peak sun hours a solar day.
10 watt 18 volt solar panel charging a 12v 10 amp hour lead acid battery 120 wh from 50 full to full time 60wh x 2 10 watts 12 hours.
For an analogy let s use some familiar automotive terms.
At the end of this typical six hour solar day the panel will have generated 30 amp hours 5 amps x 6 hours 30 amps hours.
To get that kilowatt hour back in your batteries your panels have to put in 100 amp hours from the sun before it sets.
As you can see understanding the relationship between battery amp hours and the device or devices that you wish to power helps you determine how long to expect them to run.
In a perfect world that you use 1 kwh per day.
One 100 watt solar panel in 10 hours of strong sunlight every day into your battery and you are self sufficient.
In the real world never drag your batteries below 50 charge.