Three liters per minute equates to 0.18kL per hour.
The conversion between l and kl are given .On finding the relation we get as follows . so,it is written as : 1 kl=1000 l. so,5 kl=5000 l.
Human lungs are 2 liters in volume by average. So... Average breath rate is 12 breaths per minute. In one minute the patient would take in 24 liters of air. You are supplying 2 liters of pure oxygen + 4.8 liters from air (20% of the 24 liters (Percent oxygen in dry air)) = 6.8 liters of Oxygen per minute. 6.8 liters oxygen / 24 liters intake = 28.3% Oxygen or you can look at the table given by the books at http://www.fpnotebook.com/ER/Procedure/LwFlwOxygn.htm Nasal Cannula, Flow 0 liters per minute: 21% (Room Air), Flow 2 liters per minute: 29% But I like the mathematical method. That's just me!
Remember K H D | d c m (kilo, hecto, deka, (liter, meter, gram), deci, centi, milli). Liters are three places to the right of kiloliters. So you have to move the decimal place three times to the right if you are given the amount in kL. Move the decimal place three times to the left if you are given liters and are converting to kiloliters.
On average, the total lung capacity of an adult is around 6 liters of air. However, the actual amount of oxygen contained in the lungs at any given time is much less as not all the air inhaled is oxygen. The volume of oxygen in the lungs typically ranges from 2-3 liters.
The body carries about 1-1.5 liters of oxygen in the blood and tissues at any given time. This supply is continually replenished through breathing and circulation to meet the body's oxygen demands.
To find the amount of oxygen required for the combustion of liquid benzene, you would need to balance the combustion reaction equation for benzene. Calculate the moles of benzene from the given mass, then use the stoichiometry of the balanced equation to determine the moles of oxygen required. Finally, convert the moles of oxygen to liters using the ideal gas law.
The conversion between l,kl and ml are given .On finding the relation we get as follows . 1 kl =1000 l. 1 kl=1000000 ml. thus ,from above we can say 1 kl >1 l > 1ml.
An average adult has about 5-6 liters of blood in their body, and the entire volume circulates through the circulatory system in about one minute. This means that roughly 5-6 liters of blood is traveling through the circulatory system at any given moment.
Any given minute of any given day. The odds vary, but it is always possible.
Liters.
liters
The typical flow rate for oxygen delivery via nasal cannula is between 1-6 liters per minute. The specific flow rate prescribed will depend on the patient's oxygen needs as determined by their healthcare provider. It's important not to adjust the flow rate without consulting a healthcare professional.