How do I calculate my electricity bill?

Electricity cost = Power (kW) × Time (hours) × Rate ($/kWh). First convert watts to kilowatts by dividing by 1000. Then multiply by hours of use and your electricity rate. Example: a 1,500W space heater running 4 hours/day at $0.15/kWh costs: 1.5 × 4 × 0.15 = $0.90/day = $27/month = $328.50/year.

What is a kilowatt-hour (kWh)?

A kilowatt-hour (kWh) is a unit of energy equal to using 1 kilowatt (1,000 watts) of power for one hour. It is the standard unit on electricity bills. For example, a 100-watt light bulb running for 10 hours uses 1 kWh. A 1,000-watt microwave running for 1 hour also uses 1 kWh. Your electricity rate is typically expressed as cents or dollars per kWh.

What is the average electricity cost per kWh in the US?

The average residential electricity rate in the US is approximately $0.17/kWh (17 cents per kWh) as of 2024, though it varies significantly by state. Hawaii has the highest rates (~$0.42/kWh) and Louisiana has among the lowest (~$0.11/kWh). Check your electricity bill or utility website for your exact rate — it's typically listed as 'rate per kWh' or 'energy charge'.

How much electricity does a refrigerator use?

A modern energy-efficient refrigerator uses approximately 100–400 watts while running, but since it cycles on and off, the effective average consumption is typically 100–200 kWh per year. At $0.17/kWh, this costs roughly $17–$34 per year. Older refrigerators (pre-2000) can use 2–3× more energy. Look for the EnergyGuide label on newer models for exact annual kWh estimates.

What uses the most electricity in a home?

The biggest electricity consumers in a typical US home are: (1) Heating and cooling (HVAC): 40–50% of total usage. (2) Water heater: 14–18%. (3) Washer and dryer: 5–13%. (4) Lighting: 9–12%. (5) Refrigerator: 4–8%. (6) Television and entertainment: 4–6%. The most effective ways to reduce your electricity bill are upgrading to a more efficient HVAC system, adding insulation, and switching to LED lighting.

How do I find my electricity rate?

Your electricity rate (in cents or dollars per kWh) is found on your monthly electricity bill, usually labeled as 'energy charge', 'kWh rate', or 'electricity rate'. It may include multiple components (base rate, distribution charges, taxes). The total all-in rate is your total bill amount divided by total kWh used. In the US, average residential rates range from $0.10 to $0.42/kWh depending on the state.

How much does it cost to run a TV all day?

A modern 55" LED TV uses approximately 60–100 watts. Running for 8 hours/day at $0.17/kWh: 80W × 8h / 1000 × $0.17 = $0.109/day = $3.27/month = $39.25/year. Older plasma TVs used 300–400W and cost significantly more. Smart TVs also draw standby power (5–15W) even when 'off'.

What is phantom load or standby power?

Phantom load (also called standby power or vampire power) is electricity consumed by devices when they appear to be off but are still plugged in. Common offenders: cable boxes (15–25W), televisions (5–15W in standby), computers and monitors, gaming consoles (1–10W), chargers (0.1–2W). Phantom loads account for approximately 5–10% of home electricity use. Smart power strips and unplugging devices when not in use can eliminate this waste.

How much does it cost to charge an electric vehicle (EV)?

Most EVs consume 25–35 kWh per 100 miles of driving. At $0.17/kWh, that's $4.25–$5.95 per 100 miles, or about $0.04–$0.06 per mile. A full charge for a 60 kWh battery pack costs: 60 × $0.17 = $10.20. By comparison, a gas car at 30 MPG and $3.50/gallon costs about $11.67 per 100 miles — about 2–3× more than EV charging at home rates.

What is the carbon footprint of electricity?

The carbon footprint of electricity depends on the energy mix of your utility. The US average is approximately 0.386 kg CO₂ per kWh (386 g/kWh or 0.85 lbs/kWh). States with more coal-heavy grids emit more; states with significant hydro, nuclear, or renewable capacity emit less. A US household averaging 900 kWh/month generates approximately 347 kg (765 lbs) of CO₂ per month from electricity alone.

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Power Reference

Typical Power Consumption by Appliance

Average wattage for common household appliances. Actual values vary by model and age.

Appliance	Typical Wattage	Annual kWh*	Annual Cost*	Notes
Central A/C	3,500 W	1,750 kWh	$298	Based on 500 hrs/year use
Electric Water Heater	4,000 W	4,000 kWh	$680	Largest single cost after HVAC
Clothes Dryer	5,000 W	769 kWh	$131	~3 loads/week, 45 min each
Refrigerator	150 W avg	500 kWh	$85	Cycles on/off; avg draw ~150W
Dishwasher	1,800 W	307 kWh	$52	5 loads/week, 1h each
Electric Stove (large burner)	2,100 W	—	—	Varies widely by cooking time
Microwave	1,000 W	73 kWh	$12	~12 min/day use
Desktop Computer + Monitor	300 W	219 kWh	$37	Gaming PC can be 500–800W
Laptop	45 W	66 kWh	$11	Very efficient vs desktop
55" LED TV	80 W	117 kWh	$20	4 hrs/day
Space Heater	1,500 W	—	—	Expensive to run continuously
LED Bulb (60W equiv.)	9 W	13 kWh	$2.21	4 hrs/day; CFL=14W, incand.=60W
EV Charging (Level 2)	7,200 W	2,600 kWh	$442	~12,000 miles/year @25 kWh/100mi
Pool Pump	1,500 W	1,642 kWh	$279	3 hrs/day, 365 days

*Annual estimates based on typical US household usage patterns and $0.17/kWh average rate.

Energy Saving Tips

Top Ways to Reduce Your Electricity Bill

Practical tips that can meaningfully reduce your monthly cost.

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HVAC — 40–50% of bill

Set thermostat to 68°F (20°C) in winter, 78°F (26°C) in summer. Each degree change saves 1–3%. Clean filters monthly. Program setbacks when away or sleeping. A smart thermostat pays for itself in 6–18 months.

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Switch to LED Lighting

LEDs use 75–80% less energy than incandescent bulbs and last 25× longer. Replacing 10 incandescent bulbs (60W each) with LEDs (9W each) saves ~$100–$150/year depending on hours of use.

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Eliminate Phantom Loads

Always-on electronics (TVs, cable boxes, chargers) draw 5–10% of typical home electricity even when "off". Smart power strips and unplugging unused devices can save $50–$100/year with no sacrifice.

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Water Heater

Set your water heater to 120°F (49°C) — most homes have it too high. Use cold water for laundry (saves ~$40/year). Heat pump water heaters are 2–3× more efficient than standard electric ones.

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Insulation & Air Sealing

Adding attic insulation to R-38 and sealing air leaks can reduce heating/cooling costs by 15–20%. Weather-strip doors and windows. Attic insulation typically pays back in 3–5 years and qualifies for tax credits.

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Time of Use Rates

Many utilities offer time-of-use (TOU) rates where off-peak electricity (nights and weekends) is 30–50% cheaper. Run dishwashers, laundry, and EV chargers during off-peak hours for significant savings.

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The Average US Home Uses ~900 kWh/Month — Worth $153

At the US average rate of ~$0.17/kWh, the average household pays about $1,836/year on electricity. HVAC accounts for the largest share (40–50%), followed by water heating (14–18%). Upgrading to a heat pump HVAC system and heat pump water heater can cut these two costs by 40–60% and is the single highest-impact home upgrade for electricity savings.

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Understanding Your Electricity Bill

Your bill has multiple charges: Energy charge (the per-kWh rate you use in this calculator), distribution/delivery charge (fixed or variable fee for grid maintenance), and taxes/fees. The total all-in cost per kWh is your total bill divided by total kWh used — often $0.14–$0.30/kWh in the US.

To find your rate: look for "energy charge" or "supply charge" on your bill, usually in cents/kWh. Or divide your total bill by your kWh usage for the all-in effective rate.

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Carbon Footprint of Electricity

The US average grid carbon intensity is approximately 386 g CO₂/kWh (0.386 kg/kWh). States with more renewables and nuclear have lower intensity; coal-heavy grids higher. A home using 900 kWh/month generates ~347 kg CO₂/month from electricity alone.

Switching from incandescent to LED lighting, or from a gas dryer to heat pump dryer, reduces both electricity cost and carbon footprint simultaneously. Solar panels can eliminate the carbon footprint of home electricity entirely.

How to Calculate Electricity Costs

Calculating electricity cost requires three inputs: the appliance's power consumption (in watts), how long it runs per day (hours), and your electricity rate (dollars per kWh). The formula is simple but applies to everything from a 9-watt LED bulb to a 5,000-watt clothes dryer.

The kWh Formula

Energy (kWh) = Power (W) × Time (hours) / 1,000 Cost ($) = Energy (kWh) × Rate ($/kWh) Daily cost = (Watts × Hours per day) / 1,000 × Rate Monthly cost = Daily cost × 30.44 Annual cost = Daily cost × 365.25 Example: 1,500W space heater, 4 hours/day, $0.17/kWh Daily kWh = 1,500 × 4 / 1,000 = 6 kWh Daily cost = 6 × $0.17 = $1.02 Monthly = $1.02 × 30.44 = $31.05 Annual = $1.02 × 365.25 = $372.56

Finding the Watts of Any Device

The wattage of any appliance is usually printed on a label on the back or bottom of the device, or in the user manual. It may be listed as "Max Power", "Rated Power", or "Input Power" in watts (W) or kilowatts (kW). For variable-power devices (refrigerators, air conditioners), the listed wattage is the maximum draw when running — actual average consumption is lower due to cycling.

Carbon Footprint Calculation

CO₂ (kg/day) = kWh/day × 0.386 kg/kWh (US average) CO₂ (kg/year) = kWh/year × 0.386 US average grid intensity: ~386 g CO₂ per kWh Clean grid states (WA, OR, ID): ~100–150 g/kWh Coal-heavy states (WV, WY): ~600–800 g/kWh Example: 900 kWh/month household (US average) Monthly CO₂ = 900 × 0.386 = 347 kg = 765 lbs Annual CO₂ = 10,800 × 0.386 = 4,169 kg = 9,191 lbs

Frequently Asked Questions

Cost = (Watts × Hours per day) / 1000 × Rate ($/kWh). Example: 1,500W heater × 4h/day = 6 kWh/day × $0.17 = $1.02/day = $31.05/month. Use Panel 1 above — enter watts, hours, and your electricity rate for instant daily/monthly/annual cost breakdown.

A kilowatt-hour (kWh) is the standard unit on electricity bills. It equals using 1,000 watts for 1 hour. A 100W light bulb running 10 hours = 1 kWh. A 1,000W microwave running 1 hour = 1 kWh. Your electricity meter counts kWh; your rate is dollars per kWh. Average US residential rate: ~$0.17/kWh.

The US average residential rate is approximately $0.17/kWh (17 cents) as of 2024. It varies widely: Hawaii ~$0.42/kWh (highest); Louisiana ~$0.11/kWh (lowest). To find your exact rate, divide your total bill by your kWh usage — or look for "energy charge" on your bill. Our calculator defaults to $0.17/kWh but you can enter your exact rate.

Modern energy-efficient refrigerators use ~100–200 kWh/year. At $0.17/kWh that's $17–$34/year. Older models (pre-2000) can use 2–3× more. The listed wattage (150–400W) is peak draw when compressor runs — refrigerators cycle on/off, so average consumption is much lower than peak. Look for the EnergyGuide yellow label for annual kWh estimate on newer models.

Top electricity consumers: (1) HVAC (heating/cooling): 40–50% of total. (2) Water heater: 14–18%. (3) Washer/dryer: 5–13%. (4) Lighting: 9–12%. (5) Refrigerator: 4–8%. The biggest impact upgrades are: heat pump HVAC (saves 30–50% on heating/cooling), heat pump water heater (saves 60% over standard electric), and LED lighting (saves 75–80% on lighting).

Look at your electricity bill for "energy charge" or "supply charge" — usually listed in cents/kWh. For an all-in effective rate (including delivery, taxes, fees): divide your total bill by total kWh used. This is your true cost per kWh. Rates typically range from $0.10 (Louisiana) to $0.42 (Hawaii) in the US. Most states are $0.12–$0.22/kWh.

A modern 55" LED TV uses ~80W. Running 8 hours/day: 80 × 8 / 1000 × $0.17 = $0.109/day = $3.27/month = $39.25/year. Old plasma TVs (300–400W) cost 4–5× more. Smart TVs also draw 5–15W in standby. Use our calculator — select "55-inch LED TV" preset for an instant estimate.

Phantom load (vampire power) is electricity drawn when devices appear off but stay plugged in. Cable boxes (15–25W), TVs (5–15W standby), computers, gaming consoles, chargers all draw power 24/7. This accounts for 5–10% of home electricity. Smart power strips, unplugging chargers, and putting computers to sleep eliminate this waste — typically $50–$100/year in savings.

Most EVs use 25–35 kWh per 100 miles. At $0.17/kWh: $4.25–$5.95 per 100 miles (~$0.05/mile). A full 60 kWh charge costs ~$10.20 at home. Level 2 home charger: 7,200W, so a 6-hour charge uses 43 kWh = $7.31. By comparison, a 30 MPG gas car at $3.50/gallon costs ~$11.67/100 miles — 2–3× more expensive per mile than home EV charging.

US average grid: ~386 g CO₂/kWh. A home using 900 kWh/month generates ~347 kg CO₂/month from electricity. States vary widely: Washington (hydro-heavy) ~40 g/kWh; West Virginia (coal-heavy) ~800 g/kWh. Reducing electricity use, switching to renewables, or installing solar panels reduces your carbon footprint alongside your bill.

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