Ice Hockey burns an average of 686 calories per hour for someone who weighs 180 pounds. Calorie burn also depends on the type and intensity of your activity, as well as your body weight.
Use our Calorie Calculator below to determine how many calories you burn with Ice Hockey or other activities.
Calories burned with Winter activities (weight: 180 lbs)
| MET | 15 mins. | 30 mins. | 45 mins. | 60 mins. | |
|---|---|---|---|---|---|
| Biathlon | 13.5 | 289 | 579 | 868 | 1157 |
| Cross-country skiing | 5.9 | 126 | 253 | 379 | 506 |
| Cross-country skiing, >8 mph | 15.5 | 332 | 664 | 997 | 1329 |
| Ice dancing | 14 | 300 | 600 | 900 | 1200 |
| Ice Hockey | 8 | 171 | 343 | 514 | 686 |
| Ice skating | 7 | 150 | 300 | 450 | 600 |
| Skiing | 4.8 | 103 | 206 | 309 | 411 |
| Sledding | 4.4 | 94 | 189 | 283 | 377 |
| Snow shoeing | 5.3 | 114 | 227 | 341 | 454 |
| Snow shoveling by hand | 5.3 | 114 | 227 | 341 | 454 |
| Snowboarding | 5.3 | 114 | 227 | 341 | 454 |
| Speed skating | 13.3 | 285 | 570 | 855 | 1140 |
How do we calculate how many calories Ice Hockey burns?
For the calorie burn calculation, the MET value (Metabolic Equivalent of Task) of Ice Hockey is used.
Ice Hockey has a MET of 8.
We multiply the MET value with your bodyweight in KGs. The result is multiplied by 0.0175 and the duration of the activity you performed in minutes.
For example:
- Your body weighs: 180 lbs
- Durition: 60 minutes
- MET value of Ice Hockey: 8
Here’s how to calculate the calories burned during 60 minutes of Ice Hockey:
(180 / 2.20462) * 8 * 0.0175 * 60 minutes = 686
What is MET?
MET stands for metabolic equivalent of task, we use MET value to estimate energy expenditure. The MET value is the ratio between the working metabolic rate and resting metabolic rate, which refers to the amount of energy being expended relative to the amount of time spent doing Ice Hockey.
* There is no way for METs to accurately estimate the energy cost of physical activity in individuals when taking into account differences in weight, adiposity, age, gender, and intensity of movement, as well as environmental conditions. The result is that energy expenditures will vary from individual to individual even when the same activity is performed.
