Determining Moles of Hydrogen in a Chemical Compound

How many moles of hydrogen are present in a sample of CH3OC(CH3)3?

Given data: Moles of carbon in the sample = 6.2

Answer:

The sample of CH3OC(CH3)3 contains 49.6 moles of hydrogen.

Chemical compounds consist of different elements in specific ratios, and determining the moles of each element in a compound is essential for various applications in chemistry. In this case, we are looking to find the number of moles of hydrogen in a sample of CH3OC(CH3)3.

The molecular formula of CH3OC(CH3)3 indicates that for each carbon (C) atom, there are 8 hydrogen (H) atoms in the molecule. Therefore, the ratio of hydrogen to carbon in the compound is 8:1.

Given that there are 6.2 moles of carbon in the sample, we can calculate the moles of hydrogen by multiplying the moles of carbon by the ratio of hydrogen to carbon:

Moles of hydrogen = 6.2 moles of C × 8 = 49.6 moles of H

Therefore, the sample of CH3OC(CH3)3 contains 49.6 moles of hydrogen. This information is crucial for understanding the composition of the compound and for further chemical analyses and reactions.

← Latent heat explained understanding the energy required to change phases Understanding the food chain the woodpecker s dependency on the tree →