I was wondering what Daily - Text Msg / N & W means on my Alltel bill? I'm being charged 75 cents per day for this, and I haven't been using the phone at all.

On Alltel U prepaid, you get two free features for 75 cents a day, three for $1.00 a day, and four for $1.25 a day.

The four features offered are unlimited text messaging, unlimited night and weekends (N&W), unlimited mobile to mobile (M2M), and unlimited calls any one number. You decide which ones you want.

The fee is charged every day, regardless of usage or not.

The only way to not get charged every day is to switch to the pay-per-minute plan or get a monthly plan.

Posted on Apr 13, 2009

Hi,

a 6ya expert can help you resolve that issue over the phone in a minute or two.

best thing about this new service is that you are never placed on hold and get to talk to real repairmen in the US.

the service is completely free and covers almost anything you can think of (from cars to computers, handyman, and even drones).

click here to download the app (for users in the US for now) and get all the help you need.

goodluck!

Posted on Jan 02, 2017

Assuming no insurance or other fees, 480 miles.

If this is homework, be sure to show your work.

If this is homework, be sure to show your work.

Dec 06, 2014 | Cars & Trucks

The voltmeter test provides general indicator of battery condition. Check the voltage of the battery to verify that it is in a 100 per cent fully charged condition. If the open circuit or disconnected voltage reading is below 12.6 V, charge the battery and then recheck the voltage after the battery has set for one to two hours. If the voltage reading is 12.8 V or above, perform the load test described below.

The load test measures battery performance under full current load and is the best indicator of battery condition. Load testing a battery tat is not FULLY CHARGED i.e. at 12.8 VDC can permanently damage it. Fully charge it first and then let it stand for at least an hour before the load test is done. You also need a load tester AND you should know how to perform a load test. Often the best way to load test a battery will be to take it to a battery shop and have it done there.

**VOLTAGE and STATE OF CHARGE FOR AGM BATTERIES IS:**

12.8 VDC is 100 per cent

12.6 VDC is 75 per cent

12.3 VDC is 50 per cent

12.0 VDC is 25 per cent

11.8 VDC is 0 per cent

**COLD CRANKING AMPERAGE (CCA) for a DYNA battery is 270**

**Battery**** Charging Rates/Times (Approximate)**

**FOR A 19 AMP HOUR DYNA AGM BATTERY **

**BATTERY**** STATE**** OF CHARGE is 12.8 VDC is 100 per cent Charge; Rate of Charge is N/A**

**BATTERY**** STATE**** OF CHARGE is 12.6 VDC is 75 per cent Charge; Rate of Charge at 3 AMP is **1.75 hours at **6 AMP is **50 minutes at **10 AMP is **30 minutes at **20 AMP is **15 minutes

**BATTERY**** STATE**** OF CHARGE is 12.3 VDC is 50 per cent Charge; Rate of Charge at 3 AMP is **3.5 hours at **6 AMP is **1.75 hours at **10 AMP is **1 hour at **20 AMP is **30 minutes

**BATTERY**** STATE**** OF CHARGE is 12.0 VDC is 25 per cent Charge; Rate of Charge at 3 AMP is **5 hours at **6 AMP is **2.5 hours at **10 AMP is **1.5 hours at **20 AMP is **45 minutes

**BATTERY**** STATE**** OF CHARGE is 11.8 VDC is 0 per cent Charge; Rate of Charge at 3 AMP is **6 hours, 40 minutes at** 6 AMP is **3 hours, 20 minutes** at 10 AMP is **2 hours at **20 AMP is **1 hour

The figures listed above assume that the battery is charging at room temperature. If warmer than room temperature, use a slightly shorter charging time. If colder, use a slightly longer charging time.

The use of constant current chargers to charge maintenance free batteries is not recommended. Any overcharge will cause dry out and premature battery failure. If a constant current charger is the only type available, do**not **exceed the charge times listed above and do **not **continue charging the battery if it gets hot. When charging, never exceed 15 volts for more than 30 minutes.

**If the battery gets hotter than 110 degrees F or 43 degrees C during charging, discontinue charger and allow the battery to cool. Overheating may result in plate distortion, internal shorting, dry out and/or other damage.**

The load test measures battery performance under full current load and is the best indicator of battery condition. Load testing a battery tat is not FULLY CHARGED i.e. at 12.8 VDC can permanently damage it. Fully charge it first and then let it stand for at least an hour before the load test is done. You also need a load tester AND you should know how to perform a load test. Often the best way to load test a battery will be to take it to a battery shop and have it done there.

12.8 VDC is 100 per cent

12.6 VDC is 75 per cent

12.3 VDC is 50 per cent

12.0 VDC is 25 per cent

11.8 VDC is 0 per cent

The figures listed above assume that the battery is charging at room temperature. If warmer than room temperature, use a slightly shorter charging time. If colder, use a slightly longer charging time.

The use of constant current chargers to charge maintenance free batteries is not recommended. Any overcharge will cause dry out and premature battery failure. If a constant current charger is the only type available, do

Apr 22, 2014 | Harley Davidson XL 1200 S Sportster Sport...

Okay, for example a 100 watt bulb left on for 10hrs uses 100x10 =1000. so 1000= 1kwh. so look at the watt rating on the fan motor and times that by 9hrsand then do the math, then look at your bill and see what you pay per kwh (kilowatt per hour) and times that with your answer, for example lets say the heater blower is 10watts, take 10 X 9 = 90, then 90 divided into 1000=.09 so it .09 of a kilo watt almost a tenth of a kilo watt. so if you pay 3.25 a kwh then you would say .06X3.25=.195 less than one cent, hope this helps

Feb 16, 2012 | Dayton 3VE53 Oil Filled Liquid Fuel...

contact facebook customer care to discontinued your facebook mobile

Feb 23, 2011 | Nokia 6350 Cell Phone

#include <conio.h>

int main()

{

clrscr();

long int units,charge=0;

float total;

const int rent=25;

cout << "Enter the number of units used : ";

cin>>units;

if(units>200)

charge=(units-200)*20+150*40+50*60;

else if(units>50)

charge=(units-50)*40+50*60;

else

charge=units*60;

total=0.01*charge+rent;

cout << "You have used " << units << " units." << endl;

cout << "Your total telephone bill is $" << total;

getch();

return 0;

Please accept the solution. Thanks, Lucy

}

It then calculates the total telephone bill for the customer on the following basis :

A compulsory fee of $25, plus

60 cents per unit for the first 50 units,

40 cents per unit for the next 150 units,

20 cents per unit for anything above 200 units.

It then outputs the bill using the 'cout' command.

Jan 12, 2011 | Microsoft Computers & Internet

Wattage is a term used to express magnitude of power. A common use is to define the electrical power consumption of your home appliances (check the labels). For example, look at the back label of your kitchen toaster. It might read 120 volts, 60 Hz, and 1200 Watts. The 1200 Watts is the power drawn by your toaster when you turn it on. You can get that (Watts) information for any appliance or device that runs on electricity in your house. That's important because that is the unit of measure the electric company uses to charge you in your electricity bill. The electric company bills your electric consumption in kilowatt-hour (KWH). All they are doing is calculating the watts by the thousands (that's the meaning of "kilo") for every hour you have your appliance turned on. The amount 22 cents per kilowatt-hour is close to how much the electricity is costing today. Back to your toaster, 1200 watts is equal to 1.2kilowatts. If you are using your toaster every day for an hour your monthly consumption is 1.2KWH times 30 days equals to 36KWH. That means at 22 cents per kilowatt-hour your toaster is costing you (36KWH times 22cents/KWH) $7.92 on that month. That's the toaster alone, now you can repeat this exercise for every appliance or device using electricity in your home. Start by just doing an inventory of each, do a log with four columns: (1)Name of the appliance, (2)Location, (3)Watts, and (4)Watts/1000 (to get the number in KW). Make a fifth (5) column and call it Hours. Make a sixth (6) column and call it KWH. Then sit down to estimate (think) for how many hours __per month__ each device is turned on. Now multiply each value of column 4 by its corresponding hour number in column 5. Write the results in column 6. Add the results of column 6 and voila! You just have a pretty good estimate of the total KWH consumed in your home in 30 days. Multiply that by $0.22 (or get the actual cost per KWH from your electric service company) and see how close you are to the actual billing. Hope there is no surprises.

There are the science and engineering definitions of the term watt you can research to come to the same conclusion hereto, I just laid a practical perspective.

Dec 18, 2010 | GE Microwave Ovens

To determine the cost of using this air conditioner, you will need to find out what your electric company charges per kw/h. This is the standard unit that electricity is charged for. Next determine the wattage of the air conditioner. This should be found on the unit name plate. If you can not find the wattage by the name plate, the take the voltage and multiply by the amperage, this will give you watts. Next multiply the wattage by 24. (watts per hour x 24 hours) Finally divide this number by 1000. This will give you the total Kw that the unit will use in a 24 hour period. If you multiply this number by the cost per Kw that will give you the operating cost of your unit for one day.

ex. electric company charges .25/Kw The unit uses 1000 watts 1000 x 24 = 24000 watts 24000/1000 = 24 Kw 24 Kw x .25/Kw = $6.00 day

Note: all figures shown above were randomly generated in my head, and have no correlation to your calculations. Hope this helps.

ex. electric company charges .25/Kw The unit uses 1000 watts 1000 x 24 = 24000 watts 24000/1000 = 24 Kw 24 Kw x .25/Kw = $6.00 day

Note: all figures shown above were randomly generated in my head, and have no correlation to your calculations. Hope this helps.

May 04, 2010 | Heating & Cooling

As far as I can tell, your unit is rated at 1600 watts max. That means it will use 1.6 kWh per hour. Check your electric bill for what they charge for a kilowatt hour but it is usually less than 20 cents. So I would guess less than 30 cents an hour at highest temperature. Hope this helps and please rate my answer if it was helpful.

Dec 30, 2009 | Lakewood Oil-Filled Electric Radiator...

Electricity is charged by Kilowatts per hour - There is a very easy formula for you to determine how much electricity your unit consumes.

Locate a sticker on your unit, it will usually say something like 120VAC follow by a number with A....... example 120VAC (which means 120Volts alternative current) and 5A (5 amps). Locate those 2 numbers, multiply them together.

Here is the formula: V*A=W (Volts * Amps = Watts)

So example if you have 120V 4A, that makes 480 W !

Sometimes on some units it already says the wattage, expressed in W Example 100 W !

Once you determined the WATTAGE, divide it by 1000, that gives you your KILOWATTS.

So example, unit uses 400 W..... you will do 400 / 1000 = 0.4 KiloWatts / hour

Next, locate your utility bill and see how much they charge per Kw/h. Multiply your unit's Kw/h * hours per day operation * rate = the cost per hour !

Example

0.4 kh/w * 10 hours * 0.07 (7 cents) = 28 cents per day!

Locate a sticker on your unit, it will usually say something like 120VAC follow by a number with A....... example 120VAC (which means 120Volts alternative current) and 5A (5 amps). Locate those 2 numbers, multiply them together.

Here is the formula: V*A=W (Volts * Amps = Watts)

So example if you have 120V 4A, that makes 480 W !

Sometimes on some units it already says the wattage, expressed in W Example 100 W !

Once you determined the WATTAGE, divide it by 1000, that gives you your KILOWATTS.

So example, unit uses 400 W..... you will do 400 / 1000 = 0.4 KiloWatts / hour

Next, locate your utility bill and see how much they charge per Kw/h. Multiply your unit's Kw/h * hours per day operation * rate = the cost per hour !

Example

0.4 kh/w * 10 hours * 0.07 (7 cents) = 28 cents per day!

Sep 26, 2009 | Hamilton Beach Water Cooler with Storage...

electric is billed at so many cents per kilowatt hour. a kilowatt hour is 1000 watts per hour. if your heater is rated at 3000 watts, running it for one hour will consume 3 kilowatts of energy at whatever your utility charges per kilowatt. if the amount on your bill is .026 per Kw it'll be 2.6 cents per hour.

Nov 19, 2007 | DeLonghi TRD0715T Oil Filled Radiator...

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