Sprinting is based on muscle strength Long distance running requires endurance Strength is the ability to do something that uses a lot of energy for a short period of time Endurance is the ability to do something that takes less energy for a longer amount of time
Mitochondria use lactic acid to provide energy to skeletal muscles Endurance training reduces the level of lactic acid in an athlete’s blood even though their cells are still producing lactic acid Sprinting training requires quick bursts of energy
All muscles contain hundreds of fibers Fibers connect to an axon Many axons are connected to form a motor neuron A single motor neuron may have hundreds of axons As you train for whichever event you do, the brain needs to create more contractions which causes more “motor units” to be formed
Whether a person has fast-twitch or slow- twitch muscles is based on which genes you get There is no science yet to prove that fast- twitch muscles can be improved by training, leaving your sprinting ability to chance
Fast-twitch muscles are important to sprinters Fast-twitch muscles are made of white fibers They have a high anaerobic capacity to allow lots of power to develop in a short period of time They tire very quickly
They are important to endurance athletes These muscles are red because of the blood that is being pumped to them constantly Better suited for aerobic activities
The highest steady rate of intensity an athlete can maintain for a period of time Lactate thresholds are measured in VO2 max The lactate threshold is also a line between anaerobic and aerobic respiration- the point at which you need to start using aerobic energy sources
The maximal amount of oxygen transported to the muscles to support The VO2 max depends on the activity that you are doing- it would be different for running vs. biking It can change for time to time due to different factors like sickness, training, racing, etc. As the VO2 max changes, so will the lactate threshold
To run fast the muscles need to contract In order for the muscles to contract they must have a source of energy ATP is the body’s main source of energy When hydrolysis occurs the bonds in the ATP break to provide the energy ATP can be depleted within 1-2 seconds unless it is recharged
Creatine phosphate is used as an immediate replacement of ATP By taking a phosphate from the creatine phosphate, the ADP can be turned into ATP This process can continue until all of the creatine phosphate is depleted This can create about 4-5 seconds of ATP reproduction, making this a good way for sprinters to account for their energy
This occurs after all of the creatine phosphate is used up This next process uses glycolysis The glucose is broken down into two forms: glucose that can be used freely, and ATP If the glucose is stored in the muscles or liver it takes the form of glycogen Glycogen can be broken down into 3 ATP molecules This energy source is abundant and allows high levels of activity, but it is limited in duration
Used in the case of endurance athletes and long distance runs Uses oxygen to create ATP A pyruvate from glycolysis and fatty acids is turned into acetyl-CoA and oxidized into carbon dioxide and water- the Krebs Cycle ATP is produced throughout the Krebs cycle, creating a source of energy This can last for long periods of time