Sure, here is the step by step solution:

1. An H2 molecule consists of two 1H atoms.
2. The mass of one 1H atom is given as 1.008 amu.
3. Therefore, the mass of an H2 molecule is 2 * 1.008 amu = 2.016 amu.
4. However, the question asks for the mass in grams.
5. We know that 1 amu is approximately equal to 1.660539040 * 10^-24 grams.
6. Therefore, the mass of an H2 molecule in grams is 2.016 amu * 1.660539040 * 10^-24 g/amu = 3.346 * 10^-24 grams.

So, the mass of a single H2 molecule is closest to 3.346 * 10^-24 grams.

Question

Sure, here is the step by step solution:

1. An H2 molecule consists of two 1H atoms.
2. The mass of one 1H atom is given as 1.008 amu.
3. Therefore, the mass of an H2 molecule is 2 * 1.008 amu = 2.016 amu.
4. However, the question asks for the mass in grams. 
5. We know that 1 amu is approximately equal to 1.660539040 * 10^-24 grams.
6. Therefore, the mass of an H2 molecule in grams is 2.016 amu * 1.660539040 * 10^-24 g/amu = 3.346 * 10^-24 grams.

So, the mass of a single H2 molecule is closest to 3.346 * 10^-24 grams.

Knowee AI · Accepted Answer

Sure, here is the step by step solution:

1. An H2 molecule consists of two 1H atoms.
2. The mass of one 1H atom is given as 1.008 amu.
3. Therefore, the mass of an H2 molecule is 2 * 1.008 amu = 2.016 amu.
4. However, the question asks for the mass in grams. 
5. We know that 1 amu is approximately equal to 1.660539040 * 10^-24 grams.
6. Therefore, the mass of an H2 molecule in grams is 2.016 amu * 1.660539040 * 10^-24 g/amu = 3.346 * 10^-24 grams.

So, the mass of a single H2 molecule is closest to 3.346 * 10^-24 grams.

The mass (g) of a single H2 molecule (use 1H) is closest to:(Use the isotopic mass of 1H = 1.008 amu)

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