it is directly proportional.
19.50%
the critical temperature of oxygen is -118.6 C/ -155 F
the physical state of oxygen at room temperature is GAS! - Joslyn ;*
Soil air has a higher concentration of Carbon Dioxide; plants feed on this and convert it into Oxygen during Osmosis, which is why there is a higher concentration of Oxygen in the atmosphere.
Hydrogen and oxygen are both gases at room temperature, while water is a liquid at room temperature.
For a healthy environment, the temperature of a body of water needs to be inversely proportional to the concentration of dissolved oxygen in it. The higher the oxygen level, the temperature needs to be lower to promote fish growth.
The colder the water, the more DO (dissolved oxygen) it can contain.
The concentration of oxygen in water is 88,88 %.
Temperature has a direct effect on the concentration of dissolved oxygen in water. As the temperature of the water increases, the solubility of oxygen decreases and the concentration of dissolved oxygen will decrease. Conversely, as the temperature of the water decreases, the solubility of oxygen increases and the concentration of dissolved oxygen will increase. Additionally, warmer water is generally less dense than colder water, resulting in less efficient oxygen transfer.
BOD is inversely proportional to COD
Temperature, oxygen availability, pH, sugar concentration.
MVO2 represents the volume of oxygen consumed by the heart and therefore is not inversely proportional to heart rate but directly proportional. The greater the heart rate the greater work (stress) put on the heart and thus an increase in myocardial oxygen demand. An approximated equation for MVO2 is: MVO2~HR*Systolic blood pressure. Coronary artery flow on the the other hand is inversely related to HR because coronary flow takes place during diastole and because an increase in heart rate decrease diastolic time coronary flow is reduced.
Oxygen is a gas at room temperature and room PRESSURE as well...if you increased the pressure it would be in a liquid state but at a very low temperature as well...Because Temperature and pressure are inversely proportional...In other words as pressure goes up temperature goes down at the same rate, (See BOYLES LAW). Also think of ICE, WATER and STEAM...or SOLID, LIQUID and GAS...Pressure is always related when change of temperature is present and visa versa...
The color of the flame depends on the temperature, fuel nature, composition of particles in the flame, oxygen concentration.
The concentration of oxygen decrease.
The concentration of oxygen decrease.
Water, Light and Temperature are the main one. CO2 availability will also affect it.