The circulation of blood in human body supplies `O_(2)` and releases `CO_(2)` The concentration of `O_(2)` and `CO_(2)` is variable but on the average `100mL` blood contains `0.02 g` of `O_(2)` and `0.08 g` of `CO_(2)` Calcultate the volume of `O_(2)` and `CO_(2)` at 1 atm and body temperature `37^(@)C` assuming 10 llitre blood in human body .

The circulation of blood in human body supplies O_(2) and releases CO_(2) . The concentration of O_(2) and CO_(2) is variable but on the average, 100 mL blood contains 0.02 g of O_(2) and 0.08 g of CO_(2) . Calculate the volume of O_(2) and CO_(2) at 1 atmosphere and body temperature of 37^(@)C assuming 10 L of blood in human body.

The circulation of blood in human body supplies O_2 and releases CO_2 The concentration of O_2 and CO_2 is variable but on the average, 100 mL blood contains 0.02 g of O_2 and 0.08 g CO_2 . The volume of O_2 and CO_2 at 1 atm and body temperature 37^@C , assuming 10 litre blood in human body is :

The circulation of blood in human body supplies O_2 and releases CO_2 , the concentration of O_2 and CO_2 is variable but on an average, 100 ml blood contains 0.02 g of O_2 and 0.08 g of CO_2 . The volume of O_2 and CO_2 at 1 atm and at body temperature 37^@C , assuming 10 L blood in human body, is

The circulation of blood in the human body supplied oxygen and removes carbon dioxide. The concentration of oxygen and carbon dioxide is variable but on an average 100 ml of blood contains 0.02 g of oxygen and 0.08 g of carbon dioxide. Calculate the volume of oxygen and carbon dioxide at 1 atm and body temperature (37^(@)C) assuming that there are 10 litres of blood in the human body.

How the transport of O_(2) and CO_(2) by blood happens?

How the transport of O_(2) and CO_(2) by blood happens?

How the transport of O_(2) and CO_(2) by blood happens?

How the transport of O_(2) and CO_(2) by blood happens?

Find out partial pressure of O_(2) and CO_(2) in oxygenated blood.