well it is connected to vo2 max which is the measurement of the lactic threshold when excercising.
Chemical kinetics is the study of the rates at which chemical reactions occur and the factors that influence these rates. Its components include the rate of reaction, activation energy, reaction mechanisms, and reaction orders. By understanding these components, chemists can predict and control the speed of chemical reactions.
Luis G. Arnaut has written: 'Chemical kinectics'
well it is connected to vo2 max which is the measurement of the lactic threshold when excercising.
i think its the same as a V02 max which is something i dont know about. good luck
The final velocity of an object (v2) can be calculated using the equation v2 v02 2ad, where v0 is the initial velocity, a is the acceleration, and d is the displacement.
The Label Coordinates VBA tool for placing Latitude/Longitude labels using MicroStation V8i was developed by Elivagner Barros de Oliveira at Bentley Systems Inc. ... ODOT has placed the command to invoke the Label Geographic Coordinates (v02) dialog on the Extra Tools tool box with a Lat/Long Labeler button.
If you are an avid runner and are looking for way to improve your running then asics kinectics will help, the design of the asics allows for more support and durabilty with the added benifet of allivating shin splints if you are prone to them.
Stroke volume plateaus at a certain V02 because venous return becomes optimized when the redistribution of blood away from areas such as the gastrointestinal becomes optimized.
s= vt+1/2gt^2 v2 = v02 + 2gs 0 = 352 - 2*9.8*s (taking down as the positive direction) 62.5 meters
There is not enough information here to answer the question, but if you know the force acting on the object, you can find acceleration and use the equation v2 = v02 + 2a*x where v is velocity, v0 is the initial velocity (often assumed to be 0), a is acceleration, and x is distance.
1. You need to know the velocity of the projectile (V0) 2. The expressions for the range and height assume no air resistance (in vacuum) 3. The units must be consistent e.g. metres and g = 9.81 m/s2 Range in metres for 30 degree launch angle = sin 60 x V02 / 9.81 Range in metres for 45 degree launch angle = sin 90 x V02 / 9.81 Range in metres for 60 degree launch angle = sin 120 x V02 / 9.81 Max. height in metres for 30 degree launch angle = (V0 x sin 30)2 / 2g Max. height in metres for 45 degree launch angle = (V0 x sin 45)2 / 2g Max. height in metres for 60 degree launch angle = (V0 x sin 60)2 / 2g 2g is of course 9.81 x 2 = 19.62 m/s2 For interest, at 45 degree launch angle the max. height is 25% of the range.
The difference between VO2 max and VO2 peak is what the values represent. VO2 max represents the highest running oxygen amount achievable during a high intensity test. V02 peak represents the maximum value that can be reached without having it raised by a boost.