Just about, but we'd find it tough. Normally, the air that we breathe is 70% Nitrogen, 20% Oxygen, 8% Carbon Dioxide and 2% rare gases such as argon, neon etc.
Living in 10% Oxygen would cut our Oxygen supply by a half- we could just about survive in the short term, but would be weakened, feel dizzy and tired, and have to breathe more rapidly to compensate for the reduction.
In the long term, such a reduction would cause serious damage to our nervous and muscular tissues, including brain tissue and the neural pathways throughout our bodies. Our muscles would become permanently weakened and less able to function, and some brain damage could occur, which would in the long run lead to premature death.
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∙ 11y agoYes, humans can inhale 100 percent oxygen for short periods of time, such as during medical treatments or in emergencies. Prolonged exposure to 100 percent oxygen can lead to oxygen toxicity, which can cause lung damage.
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∙ 12y agohumans can survive but would have a great deal of trouble as our life span would be halved as oxygen is not all we breathe. animals are the same, however bacteria will survive as some do not respire.
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∙ 13y agoyes a human can breathe in 100 percent oxygen although its not very good for you
The molar mass of oxygen in phenylalanine is 16.00 g/mol. To calculate the mass percent of oxygen in phenylalanine, divide the molar mass of oxygen by the molar mass of phenylalanine, then multiply by 100. (16.00 g/mol / 165.19 g/mol) * 100 = 9.68% Therefore, the mass percent of oxygen in phenylalanine is approximately 9.68%.
It is difficult to obtain 100 percent oxygen from fractional distillation because oxygen has a boiling point of -183 degrees Celsius, which is very close to the boiling points of other components in air like nitrogen and argon. Achieving complete separation is challenging due to the small difference in boiling points between oxygen and these other gases.
Sodium Carbonate has a chemical formula of Na2CO3. Percent composition is calculated using masses. The mass of oxygen in this compound is 3(16) = 48. The total mass is 2(23) + 1(12) + 3(16) = 106. Part/Whole * 100% = 48/106 * 100% = 45.2%
100 percent natural diamonds are diamonds that are formed in the earth's mantle over millions of years through natural processes without any human intervention or enhancement. They are not synthetic or lab-grown diamonds.
To find the mass percent of oxygen in aspartic acid, we calculate the molar mass contribution of oxygen (O) in the compound and divide it by the total molar mass of the compound, then multiply by 100%. Aspartic acid has 4 oxygen atoms contributing to a total molar mass of 64.00 g/mol. Therefore, the mass percent of oxygen in aspartic acid is (64.00 g/mol / 133.11 g/mol) * 100% = 48.10%.
It depends on the grade
Jesus was described as "god on earth". so therefore it is not known whether he was human or not.
no 70 percent of all oxygen comes from algee and 100 percent of plants are decendant of algee
100%
To determine the mass percent of oxygen in a compound, you would calculate the mass of oxygen in the compound and then divide it by the total mass of the compound, before multiplying by 100. The formula is: (mass of oxygen in compound / total mass of compound) x 100%.
When you breathe out, the exhaled air contains approximately 16% oxygen, which is lower than the oxygen content in the air you inhale. The rest of the exhaled air is primarily made up of carbon dioxide and nitrogen.
we are animals but humans lol
(16.0g + 16.0g)/(32.1g + 16.0g + 16.0g) x 100 %
yes
Better forget about the percentages in this context. Let's just say that Jesus had both divinde and human aspects.
To find the percent composition of oxygen in Na2O, first calculate the molar mass of Na2O (Sodium oxide) which is 61.98 g/mol. The molar mass of oxygen is 16 g/mol. Then, calculate the percent composition of oxygen in Na2O using the formula: (16 g/mol / 61.98 g/mol) * 100. This gives you the percent composition of oxygen in Na2O, which is approximately 25.8%.
The percent composition of oxygen in BeO is approximately 89.7%. This can be calculated by dividing the molar mass of oxygen by the molar mass of BeO and multiplying by 100.