I think it might be D idk help me pls

A chemist measures the amount of hydrogen gas produced during an experiment. She finds that 264. g of hydrogen gas is produced.

Lesechka [4]

Answer:

The answer is 130.953 g of hydrogen gas.

Explanation:

Hydrogen gas is formed by two atoms of hydrogen (H), so its molecular formula is H₂. We can calculate is molecular weight as the product of the molar mass of H (1.008 g/mol):

Molecular weight H₂= molar mass of H x 2= 1.008 g/mol x 2= 2.01568 g

Finally, we obtain the number of mol of H₂ there is in the produced gas mass (264 g) by using the molecular weight as follows:

mass= 264 g x 1 mol H₂/2.01568 g= 130.9731703 g

The final mass rounded to 3 significant digits is 130.973 g

4 0

2 years ago

Balance this chemical equation with an explanation please: CH3CH2OH + O2 = CO2 + H2O

STALIN [3.7K]

CH3CH2OH + 3O2 = 2CO2 + 3H2O

Basically you do trial and error on both sides so they can be equal

3 0

3 years ago

As you were climbing a a mountain, you noticed that rocks were crumbling below your feet and moving down the mountain. What two

Flauer [41]

Answer:

Weathering and erosion

Explanation:

Weathering can be explained as the breaking down of rocks/minerals on the surface of the Earth as a result of contact with biological organism, water, air and other factors

. There are 3 common types of weathering which are;

1) physical weathering

2) biological weathering

3) chemical weathering

Erosion can be regarded as a geological process, whereby earthen material are been transported away by natural forces, these forces could be wind as well as water.

Therefore, as you were climbing a a mountain, you noticed that rocks were crumbling below your feet and moving down the mountain. What is observed are weathering and erosion processes.

After the weakening and broken up of the rock by weathering then erosion transport the bit of the rock down the mountain as you are climbing, which means the "weathering process" breakdown and the "erosion process" involves the transport or movement of the bit of the rocks

6 0

3 years ago

A certain solution is 70% ethanol and the rest being distilled water. If there are 12 moles of ethanol per litre of solution, fi

Aleks04 [339]

Answer:

$0.55284g/mL$

Explanation:

Hello there!

In this case, given the by-mass percent of ethanol:

$\frac{70gEt}{100gSol}$

It is possible to compute the density by using its molar mass to find the grams in one liter of solution:

$12\frac{molEt}{1L}*\frac{46.07 gEt}{1molEt}=552.85g/L$

However, by taking the g/mL we obtain:

$552.84\frac{g}{L} *\frac{1L}{1000mL}=0.55284g/mL$

Which is the density of the solution.

Best regards!

6 0

2 years ago

The elements in alkali metal and halogen groups of the periodic table are the most reactive since they only need to gain or lose

Anarel [89]

<h3>Answer:</h3>

Reactivity increases because the valence level is further from the nucleus of an atom.

<h3>Explanation:</h3>

The reactivity of elements in the periodic table depends on the position of the element in the periodic table.
The trend in the reactivity across the period and down the group depends on whether one is dealing with metallic elements or non-metallic elements.
Reactivity of metals such as alkali metals and alkali-earth metals increases down the group as the number of energy levels increases making valence electrons to be further from the nucleus.
Reactivity of non-metallic groups such as halogen decreases down the group as energy levels increase which reduces the nuclear attraction of the valence electrons to the nucleus.

4 0

3 years ago