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the experimental mole ratio has a bigger penis
Mole Ratio
100 grams oxygen (1 mole O/16 grams)(2 mole Fe/3 mole O) = 4.17 moles iron --------------------------
The number of ions in a 6,58 mole sample of NaCl is 79,25137367812.10e23.
Glucose is C6H12O6 and thus the mole ratio is 6 moles of carbon to 6 moles of Hydrogen Molecules (12 moles of Hydrogen atoms) and 3 moles of oxygen molecules (6 moles of oxygen atoms)
2 moles of aluminum to 3 moles of oxygen
If the magnesium is not polished, there may be impurities or oxides on the surface that could affect the reported mole ratio of oxygen to magnesium. This could result in a higher reported mole ratio due to the presence of excess oxygen-containing compounds on the surface, leading to an inaccurate measurement of the actual ratio of oxygen to magnesium.
No. According to the law of definite proportions, the mole ratio will always be the same.
If by "air" you mean oxygen, then the mole ratio can by found by balancing a reaction equation. CH4 + 202 -> CO2 + 2H2O The ratio is 1:2.
The mole ratio of the sample will be too high. This is because the amount of CO2 will be lower than if the reaction went all the way and produced the proper amount of CO2.
the experimental mole ratio has a bigger penis
Yes.Explanationary:27 g Al = 1.0 mole Al24 g = 1.5 mole O2 so this ratio (in mole) is 1:1.52Al + 3O2 --> Al2O3 so the balanced mole ratio is 2:3 or 1:1.5
Mole Ratio
Lets start with the reaction of methane fully reacting with oxygen: CH4 + 2 O2 --> CO2 + 2 H2O The ratio CH4:O2 is 1:2 So 0.1 mole of methane can potentially react with 0.2 mole of oxygen. Seeing as we only have 0.1 mole oxygen we know that we have excess of methane. Because of the lack of oxygen the methane can form carbonmonoxide (CO) instead of CO2. (if someone knows the composition of the final product, please add here. As far as i know, you cant predict the CO:CO2 ratio.)
100 grams oxygen (1 mole O/16 grams)(2 mole Fe/3 mole O) = 4.17 moles iron --------------------------
0.95 - 0.954
One mole of 12C has a mass of 12.00000 grams (exactly, by definition).One mole of 13C has a mass of 13.00335 grams.One mole of 14C has a mass of 14.00324 grams.One mole of natural carbon - i.e. a sample with the ratio of isotopes equal to that in nature - has a mass of 12.0107 grams.