In fact, the so-called "skinny kilogram" here refers to reducing fat by one kilogram, not completely losing one kilogram of body weight. But how is this "skinny kilogram can improve for 3 minutes"?
There is such an algorithm on the Internet for the theory that "one kilogram can be improved by one minute." The formula for calculating the maximum oxygen uptake (Y): Y=0.2X + 3.5, where (X) refers to how many meters can be moved per minute, thereby estimating the maximum oxygen uptake, and the maximum oxygen uptake unit is ml/kg/ Min, ie ml/kg/min.
Assuming a 65 kg runner, the best result in Malaysia is 3 hours and 30 minutes, then his maximum oxygen uptake can be calculated as follows:
42195 meters ÷ 210 minutes = 200.93 meters / minute
200.93×0.2+3.5=43.69 (ml/kg/min)
The above is the maximum oxygen uptake per kilogram of this runner. Because his weight is 65kg, the runner's maximum oxygen uptake per minute is:
43.69×65=2839.85 (ml/min)
Assuming his maximum oxygen uptake capacity is constant and his weight becomes 60kg, his maximum oxygen uptake per kilogram per minute becomes:
2839.85÷60=47.33(ml/kg/min)
Using this maximum oxygen uptake to reverse how many meters he can run per minute now becomes:
47.33=0.2X + 3.5
X=219.15m
The Malaysian performance will be upgraded to:
42195÷219.15=192.54m (3h12m32s)
Therefore, the runner was reduced from 65kg to 60kg, and the horse score was reduced from 3h30m to 3h12m32s. In this case, for every kilogram of weight lost, it actually improved by 3 minutes.
Such an algorithm seems to be exactly the same, logically correct, ignoring the influencing factor of oxygen uptake - weight. Under normal conditions, people with a higher body weight consume more oxygen per unit time, and people who are lighter in weight consume less oxygen per unit time. Therefore, there are two ways to properly describe the amount of oxygen uptake. :
Absolute value: 1L/min (L/min) as the unit;
Relative value: 1ml/kg/min (ml/kg/min) as the unit;
The relative value is the amount of oxygen per unit time per unit of weight. Therefore, when the weight is reduced, the amount of oxygen per unit time may also decrease. Therefore, such an algorithm is not reasonable, but it can express the correct view: the runner with the same strength, the heavier the weight, the greater the oxygen consumption during running, the more energy is consumed, and the more difficult it is to run.
This kind of H type wind turbine is vertical axis, PMG maglev generator, could star up with very low wind speed, and it's very quiet when running, so can be installed on rooftop, and no noise to your house or neighbour. Besides, this design simple and clean lines, makes it very high effifiency, this type is most efficiency one in vertical wind turbines, around 50%~80%. We could make it blade height from 0.6m to 15m, power range from 300W to 200KW. Also the price is not very high. Most competitive one in vertical wind turbines from price, efficiency, noise, quality, etc.
Vertical Wind Turbine,Vertical Axis Wind Turbine,Red Lantern Vertical Wind Turbine,Small Vertical Wind Turbine
Wuxi Smaraad New Energy Technology Co., Ltd. , https://www.smaraadenergy.com