Six panels would produce six times the power, 1.2 kilowatts. Note that this happens only in direct sunlight, and in other conditions the power produced is much less.
In ideal conditions the panels would produce 1.2-kilowatt-hours every hour, so in an 8-hour day it would be 9.6 kilowatt-hours, but not when it's cloudy.
The amount of energy produced by a 225-watt solar panel in a day depends on factors such as sunlight intensity and duration. On average, a 225-watt solar panel can generate around 900 watt-hours (0.9 kWh) to 1,350 watt-hours (1.35 kWh) per day, assuming about 4-6 hours of peak sunlight exposure.
When used in the context of solar power, "Wp" means watt-peak. This refers to the nominal power of a solar cell or a solar panel. Watt-peak, kilowatt-peak, and megawatt-peak are often used interchangeably. Price per Wp refers to the amount of power that a solar cell or panel generates under real-life conditions in relation to its cost
Many panels I have seen in "kits" have been based on 18.3 Watts per panel and sold in 3's to make a 55 Watt system (Coleman solar starter kit 55 W). Therefore I've seen many 110 W and then 220 W panels based on this configuration. Size and weight being major factors. Many manufactures selling the larger panels are the 220 W variety even though you can make them almost any size. Weight and ease of installation for normal person can handle a 220 Watt panel, anything larger starts to become too bulky and takes up too much space.
It depends on the power consumption of your deep freeze. To calculate whether a 700 watt solar panel can power your deep freeze for a day, you'll need to know the wattage of the deep freeze and how many hours it runs per day. Keep in mind that solar panels may not produce their full wattage all day due to changing sunlight conditions.
On a sunny day, one square foot of photovoltaic solar cells can generate around 10-12 watts of power. However, this can vary depending on factors such as the efficiency of the solar cells, the angle of sunlight, and any shading that may be present.
It depends on the size of the array. The ones that you buy for your car are often limited to a single watt or less.
All solar panels are made the same. It'd like as heater a watt is a watt!
it depends on your solar panels, i can tell you if you know the amperage and the volts, you can find the amount of watts it produce, the equation is watts = amps x volts. hate to give you an equation as an answer
5000w/190w=26.316 so connect atleast 27 solar panels.
One solar panel wil generate about 5kw per day. So by simple math we can see that 25 solar panles will generate 100 kw per day. But a solar powered generator, if designed right can generate 100kw/hr's per day..
There's a wide range of places you can purchase solar panels online. Ecodirect.com sells all sizes of solar panels, from 10 watt to commercial sized panels at reasonable prices.
http://wiki.answers.com/Q/How_many_solar_panels_and_batteries_do_you_need_to_run_a_5000_watt_inverter"
The cost of available technology continues to keep average people from buying solar panels. With the price per watt still at or over the $10 range, many of us are still waiting for the promised dollar-per-watt panel.
Solar panels generally cost just under two dollars per watt up to three or four dollars per watt depending on where you buy them. Affordable Solar is generally a good place to look to find solar panels that have a good watt to dollar ratio.
Solar panels are ridiculously expensive. A small 130 watt unit costs almost $600. To run your house on solar panels you are looking at thousands of dollars.
It depends on how many watts each panel can produce.
Running solar panels directly on a 250-watt sodium bulb is not feasible because solar panels generate electricity from sunlight, while a sodium bulb requires a specific electrical supply to operate. However, you can use solar panels to power an appropriate electrical system that can then supply energy to a sodium bulb, assuming you have the necessary inverter and battery storage to manage the power requirements. This setup would involve converting the DC output from the solar panels into AC power suitable for the bulb.