Energy
The addition of a video game to stationary cycling: The impact on energy expenditure in overweight children
Haddock, B. L., Siegel, S. R., & Wikin, L. D. (2009). The addition of a video game to stationary cycling: The impact on energy expenditure in overweight children. Open Sports Science, 2, 42-46.
Obesity and Weight Loss
Cycling
Energy
Physics
XML
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Energy cost of exergaming: A comparison of the energy cost of 6 forms of exergaming
Bailey, B. W. & McInnis, K. (2011). Energy cost of exergaming: A comparison of the energy cost of 6 forms of exergaming. Archives of Pediatrics & Adolescent Medicine, 165(7), 597-602.
Obesity and Weight Loss
AMP Energy
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Energy
Exergaming
Medicine
Physics
XML
Pre-Teens
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Energy expenditure and enjoyment during video game play: Differences by game type
Lyons, E. J., Tate, D. F., Ward, D. S., Bowling, J. M., Ribisl, K. M., & Kalyararaman, S. (2011). Energy expenditure and enjoyment during video game play: Differences by game type. Medicine and Science in Sports and Exercise, 43(10), 1987-1993.
Shooter
Sports
Young Adults
Energy
Physical exercise
Science
XML
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Total energy intake, adolescent discretionary behaviors and the energy gap
Sonneville, K. R., & Gortmaker, S. L. (2008). Total energy intake, adolescent discretionary behaviors and the energy gap. International Journal of Obesity, 32(S6), S19-S27.
Exercise and Fitness
Obesity and Weight Loss
CDATA
Energy
Food energy
Medical education
Metabolic disorders
Nutrition
Obesity
Science
Sonneville
XML
Teens