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3 years ago

Which of the following energy forms are involved in a nuclear power plant?

Chemistry

1 answer:

mash [69]3 years ago

4 0

Energy forms? Nuclear, and thermal I presume. There are more I presume, but I have no idea.

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Which of the following pairs of substances can be broken down chemically?

Ket [755]

Methane and water because they are both compounds

5 0

3 years ago

Why is the periodic table such as useful tool for chemist?

Tomtit [17]

The periodic table is useful tool for chemist since we can see what is the atomic and mass number for each atom.

Atomic number is equal to how many protons and electrons in it

Mass number is equal to protons + Neutrons.

3 0

3 years ago

Assuming the materials don't mix, show how the materials would "stack up" in a graduated cylinder. (Based on their densities) (J

o-na [289]

Explanation:

air

wood

ice

corn oil

water

glycerin

rubber

corn syrup

steel

I believe?

6 0

3 years ago

Who uses holmium? I need to know for a science project.

Tanzania [10]

Answer:

Holmium can absorb neutrons, so it is used in nuclear reactors to keep a chain reaction under control. Its alloys are used in some magnets. Holmium has no known biological role, and is non-toxic. Holmium is found as a minor component of the minerals monazite and bastnaesite.

Explanation:

this is basically used in industries

7 0

3 years ago

A sample weighing 3.110 g is a mixture of Fe 2 O 3 (molar mass = 159.69 g/mol) and Al 2 O 3 (molar mass = 101.96 g/mol). When he

grandymaker [24]

Answer:

The mass fraction of ferric oxide in the original sample : $\frac{723}{3110}$

Explanation:

Mass of the mixture = 3.110 g

Mass of $Fe_2O_3=x$

Mass of $Al_2O_3=y$

After heating the mixture it allowed to react with hydrogen gas in which all the ferric oxide reacted to form metallic iron and water vapors where as aluminum oxide did not react.

$Fe_2O_3(s)+3H_2(g)\rightarrow 2Fe(s)+3H_2O(g)$

Mass of mixture left after all the ferric oxide has reacted = 2.387 g

Mass of mixture left after all the ferric oxide has reacted = y

$x=3.110 g- y=3.110 g - 2.387 g = 0.723 g$

The mass fraction of ferric oxide in the original sample :

$\frac{0.723 g}{3.110 g}=\frac{723}{3110}$

5 0

3 years ago