0
Is capillary indensity greater in power lifters than endurance athletes?
Wiki User
∙ 11y ago
power lifters
Wiki User
∙ 11y ago
Add your answer:
Earn +20 pts
How are percents greater then 100 percent used in the real-world contexts?
It is not uncommon to hear professional athletes state, fervently if not logically, that they are giving "110 percent."
How are percents greater than 100 percent used in real world contexts?
You often hear about athletes giving "110 percent," but that's not possible. But if you figure that Apple's Revenue Per Share in the third quarter of 2011 was $16.51 and in the third quarter of 2015 was $40.34, that's an increase of about 244 percent.
Is 0.19 greater or is 0.04 greater?
0.19 is greater.
Is 7.209 greater or 7.22 greater?
7.22 is greater.
Which is greater 6-10 or 4-5?
4/5 is greater.4/5 is greater.4/5 is greater.4/5 is greater.
Is capillary density greater in power lifters or endurance athletes?
There's a greater capillary density in endurance athletes, due to the angiogenesis that occurs.Source: BIPN 108: Exercise Physiology, UCSD
What are the benefits of a greater power to weight ratio and what type of athletes are likely to benefit from it?
The power to weight ratio is the power generated divided by the person's body weight. It benefits athletes because the greater the PWR is, the less physical effort the athlete has to do to achieve a goal. Endurance athletes, such as mounain bikers, tiatheletes, etc. will benefit from a greater PWR.
Do trained athletes store more glycogen?
Yes, trained athletes typically have greater glycogen storage capacity in their muscles due to adaptation from endurance training. Training increases the activity of enzymes involved in glycogen synthesis and storage, allowing athletes to store more glycogen for energy during exercise.
Do polar or non polar liquids have a greater capillary action?
Polar liquids have a greater capillary action than nonpolar liquids because polar liquids have molecules that exhibit stronger intermolecular forces, such as hydrogen bonding, which allow them to "climb" up a surface more easily. Nonpolar liquids have weaker intermolecular forces, reducing their capillary action.
What has greatest capillary action?
Water has the greatest capillary action due to its strong hydrogen bonding and cohesive properties, allowing it to easily move through narrow spaces and against gravity. Other liquids with high capillary action include mercury and ethanol.
Why mercury falls in capillary tube?
Mercury falls in a capillary tube due to the combination of capillary action and gravity. Capillary action is the tendency of a liquid to be drawn up into a narrow tube against the force of gravity. When the adhesive forces between the mercury and the walls of the capillary tube are greater than the cohesive forces within the mercury, the mercury will move downward in the tube.
Why do athletes need nutrition in the body?
the athletes need nutrition in the body to make them perform faster or greater because the nutrition gives them more energy.
Should pro athletes earn what they earn or should some the money they earn go to a greater cause?
Many athletes make lot of money in a year.undenaible
Why there is capillary action and why the effect is greater for narrower tubes?
Liquid rises in and out of cappilarry to compansate pressure difference. Rise of a liquid in capillary is indirectly proportional to radius of tube so liquid goes higher in a narrow tube.
Blood travels more slowly through a capillary than through an artery?
Capillary beds are finely branched, have smaller diameters, have more inner surface area and therefore offer greater resistance to blood travelling through them than arteries do.
Why do muscle cells in athletes have more mitochondria?
4. have a greater demand for energy than the muscle cells of nonathletes
How is polarity related to capillary attraction?
Polarity in a liquid is related to capillary attraction because the intermolecular forces between the liquid and the solid surface of the capillary tube are influenced by the polarity of the liquid molecules. When the liquid has polar molecules, these molecules are attracted to the polar surface of the capillary tube, leading to capillary rise due to cohesive and adhesive forces.
