Yes, but you might need a lot of AAA batteries, because they don't have a lot of available power.
Most computers use a mix of battery power, as well as electricity, as their energy source. For instance, your cell phone works through battery power that you must charge with electricity when it runs out.
A circuit diagram of str 5q1265rf
100AH * 12v = 1200 Watts of power. A 16 inch TV has a power rating of 55w, so 1200/55 is 21.8 hrs Your TV will have a higher wattage (usually on a sticker on the back) so sub in the the value... I would also minus off about 10% as the inverter uses power itself, and bear in mind this maths is for an ideal world, ie, fully charged, brand new battery, no other sources of drain (lights, DVD players), average volume/brightness etc...
The running time depends on two things: the actual power the inverter can supply, and the actual power drain of the loads. A 1000 VA inverter may be able to supply 1000 VA, but it battery size determines *how long* it can supply power for. A 100 amp battery can probably supply 10 amps for 10 hours (100 amp-hours), but it may only supply 100 amps for perhaps 45 minutes - if it does not overheat! Generally, batteries give less effective power at higher power drain. You also need to know how efficient your inverter is - it may be 90%-plus, it may be as bad as 75% or less. So you will need to (1) find out how much power your appliances draw (let's say its 300 watts), then (2) examine the specifications for the inverter-battery combination to discover how long they can support your power drain. Be aware that 300 watts load is over 25 amps current drain at 12 volts, so you are already getting away from the 100 amp rating, to a lower value due to the high power drain on the battery.
An battery to light and back or Wires to TV and back.
Yes
Televisions in buses can be either AC or DC current. It depends on whether the bus is using a DC to AC power convertor or an AC generator or DC power from the battery.
Usually AAAUsually AAA
aaa is currently shown on the galavision channel
That depends on the Amp-hour capacity of the battery and the power requirement of the TV when it's on. If the TV isn't designed to operate on 12 volts, then it won't run at all, no matter what the capacity of the battery is.
depending on the type of television you have, you can use, the solar power system to power it, be it a dc or ac type what changes are only the configuration and conditioning equipments. if you have a dc type television eg. 12volts dc, with your solar panel to charge your battery through a charge regulator, you will need a battery or battery bank/s depending on the hour/s you will want your television to be used, connect your television with the appropriate plugs to the battery and enjoy yourself. but if you have a 110-220/240 volt ac television, then you have to add an inverter, between your battery or battery bank and the television, the inverter converts the 12volts dc of the battery, to 110-220/240 volt ac, remember to observe polarities, and add security systems like fuses/ breakers.when buying an inverter please buy pure sine inverter.
The answer is YES....just do a web search of "portable battery operated digital televisions" and you'll find what you want.
The rating mentioned for the inverter refers to current /voltage capability. (It approximates to a power rating of up to 800 Watts although power and VA are slightly different measurements). The television uses 215 Watts which is also a power rating. Therefore, the television will run continually on the inverter without overloading it. The time limit for operation is the battery that is supplying the inverter with energy. As the battery is not specified the operational time can't be calculated. However, if we take an example of a 12 Volt battery with a capacity of 70 Amp hours (a size that may well be found in a car), the amount of energy stored in the battery should operate the television for a theoretical time of just less than four hours. In reality, the battery will not be capable of delivering all of the energy it stores so some time is likely to be lost. The television power rating is often quoted as the maximum power draw and it will probably draw less power than 215W. This means that the time may be rather longer than 4 hours. There are a lot of factors such as battery efficiency, power draw, temperature, inverter efficiency and brightness setting of the television that all have an effect on the operation time so the only real method is to hook it up and try it. If the power source is a lead acid battery then make sure the battery is not left discharged for long periods. Leaving it discharged will adversely affect the life span of the battery so get it back on a charger as soon as possible.
Because the TV is using power to turn on so the lights may flicker because the TV is taking power from the other energy sources around it.
No, batteries put out DC voltage and you home runs on AC voltage. Even with a converter there is only enough power in a battery to run a few lights, TV, or a small appliance for a very short period of time.
During a blackout, you will need power. A generator powered by propane, natural gas, gasoline or diesel fuel is a great idea, but most portable models can only provide so much power. Keeping the refrigerator, freezer and the air conditioner or heater on is about all they can handle. To power a computer or television, a 12V battery will fill the bill. With an inverter it can power your computer or television so you can receive news.
Get the battery from the toy car using the screw driver. Put it in the TV remote and jump on the green button (the biggest one).