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2 years ago

14

A reaction where Oxygen is a reactant.

2 answers:

skelet666 [1.2K]2 years ago

8 0

Chemical is the answer

Goryan [66]2 years ago

6 0

Answer:

chemical

Explanation:

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E the table below for the next three questions.

Sliva [168]

Answer:

Explanation:i would go wit d

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2 years ago

Using the appropriate starting material, (1) show the synthetic steps of the modified Kiliani-Fischer chain extension synthesis

sashaice [31]

Answer:............

.

Explanation:

3 0

2 years ago

sorry that answer is wrong. A chemical bond is the force that holds together the elements in a compound

olya-2409 [2.1K]

That is a true statement <span />

8 0

2 years ago

When the equation Al2(SO4)3 + NaOH + Al(OH)3 + Na2SO4 is correctly balanced, what is the coefficient of Al(OH)3?

nevsk [136]

The balanced chemical formula should be Al2(SO4)3 + 6NaOH = 2Al(OH)3 + 3Na2SO4

Therefore the coefficient of Al(OH)3 is 2!

Hope that helps :)

4 0

2 years ago

Assume that the test tube shown started out having 10.00 g of mercury(II) oxide. After heating the test tube briefly, you find 1

anyanavicka [17]

This problem is providing information about the initial mass of mercury (II) oxide (10.00 g) which is able to produce liquid mercury (8.00 g) and gaseous oxygen and asks for the resulting mass of the latter, which turns out to be 0.65 g after doing the corresponding calculations.

Initially, it is given a mass of 10.00 g of the oxide and 1.35 g are left which means that the following mass is consumed:

$m_{HgO}^{consumed}=10.00g-1.35 g=8.65 g$

Now, since 8.00 grams of liquid mercury are collected, it is possible to calculate the grams of oxygen that were produced, by considering the law of conservation of mass, which states that the mass of the products equal that of the reactants as it is nor destroyed nor created. In such a way, the mass of oxygen turns out to be:

$m_{O_2}=8.65g-8.00g=0.65g$

Learn more:

3 0

1 year ago