Photo by Natalia S
As the holiday season approaches, the energy experts at Compare the Market wanted to reveal the true cost of Christmas energy consumption in a very special town, Whoville, the whimsical town from Dr Seuss’s stories. With festive lights twinkling and trees sparkling, we wanted to calculate just how much it would cost to run Whoville’s electrifying celebrations if the town was located in a real U.S. state.
Using real U.S. energy data, Compare the Market has estimated what Whoville’s holiday season would cost in 2025, factoring in the energy used to light up the town’s homes, heat the festive feasts, and run the iconic Whoville parade of lights. The findings reveal some shocking numbers about the energy costs of holiday decorations and heating during the busiest time of year.
Whoville’s Christmas Energy Bill by U.S. State
Here’s a breakdown of how much it would cost to power Whoville from How the Grinch Stole Christmas across various U.S. states:
| State | Residential Electricity Cost (USD/kWh) | Average Daily Cost ($) |
| Hawaii | 0.389 | 262.57 |
| California | 0.3158 | 213.17 |
| Massachusetts | 0.3063 | 206.28 |
| Connecticut | 0.3029 | 204.42 |
| Maine | 0.2825 | 190.75 |
| … | … | … |
| Tennessee | 0.1316 | 88.64 |
| North Dakota | 0.1294 | 87.37 |
| Nevada | 0.1257 | 84.90 |
| Louisiana | 0.1246 | 82.65 |
| Idaho | 0.1207 | 81.11 |
Hawaii, California, and Massachusetts top the list as the states with the most expensive estimated energy costs for running Whoville’s festive decorations. These states experience high electricity rates, especially during the holiday season when residents are adding lights and decorations to their homes.
Energy costs vary significantly across the U.S. States on the East Coast,
such as Massachusetts, New York, and Rhode Island tend to have higher energy prices due to colder winters and increased heating demand during the holiday season. In contrast, West Coast states, such as California, face high electricity costs likely for cooling as they have a warmer climate and could have further significant energy consumption if they intend to decorate for the holiday season. These regional differences highlight how local factors, whether it’s heating or cooling, can drive up energy costs during the festive season.
At the other end of the spectrum, Idaho, Louisiana, and Nevada ranked among the states with the lowest energy costs. These states benefit from lower residential electricity costs, leading to lower overall holiday energy consumption for those who have decorated their homes.
Although, the Grinch may have other plans to sabotage Whoville’s festive celebrations. For many U.S. households, holiday energy bills may be a real concern. The festive season often brings higher energy consumption, especially with increased lighting, heating, and cooking.
Methodology:
This dataset estimates the daily energy costs of powering Christmas lights in Whoville (the fictional town from How the Grinch Stole Christmas) across all U.S. states. We used a combination of real U.S. energy data and assumptions about Whoville’s holiday lighting setup.
Key Data:
- Residential Electricity Cost: State-specific electricity rates (USD/kWh).
- Light Sets in Whoville: Based on 225 households, each with 10-15 LED light sets.
- LED Light Usage: Based on each string consuming 10 watts, running 24 hours a day.
- Total Daily Energy Usage: Estimated to range from 540 kWh to 810 kWh, depending on the number of lights.
Calculation:
- The daily energy cost for each state was calculated by applying the state’s electricity rate to the total daily energy usage (kWh per day).
- ‘Estimated Daily Energy Cost’ reflects a possible range in total light sets (10–15 per household).
- ‘Average Daily Energy Cost‘ is derived from the midpoint of the cost range.
Assumptions:
- All lights run continuously throughout the holiday season.
- The number of households and light sets is based on creative assumptions, not real-life data.
Data Sources:
Residential electricity prices per state – “Cost of Christmas Spirit” dataset (2025)
LED light power usage – standard specifications for 100–150 bulb strings
Population and household assumptions – Whoville fictional scenario
All data is correct as of 26/11/25. This data is intended for creative, seasonal storytelling and does not reflect actual energy usage in any real town.
| Alabama | 0.1619 |
| Alaska | 0.2771 |
| Arizona | 0.1521 |
| Arkansas | 0.1326 |
| California | 0.3158 |
| Colorado | 0.1648 |
| Connecticut | 0.3029 |
| Delaware | 0.1681 |
| Florida | 0.1539 |
| Georgia | 0.1554 |
| Hawaii | 0.389 |
| Idaho | 0.1207 |
| Illinois | 0.1809 |
| Indiana | 0.1659 |
| Iowa | 0.1564 |
| Kansas | 0.1473 |
| Kentucky | 0.134 |
| Louisiana | 0.1246 |
| Maine | 0.2825 |
| Maryland | 0.1987 |
| Massachusetts | 0.3063 |
| Michigan | 0.2074 |
| Minnesota | 0.1694 |
| Mississippi | 0.1349 |
| Missouri | 0.1537 |
| Montana | 0.143 |
| Nebraska | 0.1319 |
| Nevada | 0.1257 |
| New Hampshire | 0.2447 |
| New Jersey | 0.2496 |
| New Mexico | 0.1627 |
| New York | 0.2665 |
| North Carolina | 0.1456 |
| North Dakota | 0.1294 |
| Ohio | 0.1761 |
| Oklahoma | 0.1431 |
| Oregon | 0.1574 |
| Pennsylvania | 0.1994 |
| Rhode Island | 0.2652 |
| South Carolina | 0.1489 |
| South Dakota | 0.1398 |
| Tennessee | 0.1316 |
| Texas | 0.1545 |
| Utah | 0.137 |
| Vermont | 0.2257 |
| Virginia | 0.1601 |
| Washington | 0.1366 |
| West Virginia | 0.1565 |
| Wisconsin | 0.1857 |
| Wyoming | 0.1437 |