Asked by Uh

According to the law of conservation of mass, the total mass of the reactants must be equal to the total mass of the products in a chemical reaction. Therefore, if the total mass of the reactants is 58.44 amu, the total mass of the products must also be 58.44 amu.

The correct response is:

58.44 amu

To demonstrate that matter is conserved during a physical change, you want to perform an experiment where you can measure the mass before and after a change that does not involve a chemical transformation.

The best procedure from the options given is:

**"Find the mass of a piece of ice. Let the ice melt. Find the mass of the liquid water."**

This procedure shows that when ice (a solid) melts to become water (a liquid), the total mass remains the same, demonstrating that matter is conserved during the physical change of melting.

To determine the number of atoms in the products when one molecule of bromine (Br2) and two molecules of potassium chloride (KCl) combine, we first need to break down the composition of each reactant:

1. **Bromine (Br2)**: This molecule has 2 bromine atoms.
2. **Potassium Chloride (KCl)**: Each molecule of KCl contains 1 potassium atom and 1 chlorine atom. Since there are 2 molecules of KCl, this contributes:
- 2 potassium atoms
- 2 chlorine atoms

Now, let's sum the total number of atoms from all reactants:

- From Br2: 2 Br atoms
- From 2 KCl: 2 K atoms + 2 Cl atoms = 4 atoms (2 K + 2 Cl)

Now, we add them together:
- Total = 2 (Br) + 2 (K) + 2 (Cl) = 6 atoms

So, the total number of atoms in the products is **six**.

The correct response is:

**six**

To balance the given chemical equation:

**Unbalanced equation:**
\[ 2 \text{NaHCO}_3 \rightarrow \text{Na}_2\text{CO}_3 + \text{CO}_2 \]

Let’s break down the reactants and products:

- **Reactants:**
- 2 Na (from 2 NaHCO3)
- 2 H (from 2 NaHCO3)
- 2 C (1 from Na2CO3 and 1 from CO2, total of 2)
- 6 O (from 2 NaHCO3 contributing 3 per molecule, total of 6)

- **Products:**
- 2 Na (from Na2CO3)
- 2 C (1 from Na2CO3 and 1 from CO2)
- 5 O (3 from Na2CO3 and 2 from CO2)

Currently, the equation is not balanced because the number of oxygen atoms on the products side is 5, while there are 6 on the reactant side (according to the breakdown above).

To balance the number of oxygen atoms, we can look for a compound that can provide one additional oxygen atom without disturbing the balance of other elements.

Of the options given:
- **H2**: does not provide oxygen
- **CH2OH**: does not provide oxygen (it contains 1 O)
- **H2O**: provides 1 O, making the total oxygen count 6
- **O2**: provides 2 O, which would unbalance the equation further

The correct addition to balance the equation is:

**H2O**

Creating models of substances is important because they allow us to visualize and analyze molecular structures, interactions, and behaviors that are not easily observed in real life. These models enhance our understanding of chemical properties and reactions, making it easier to predict how substances will behave under different conditions.

The scientist used the law of conservation of mass to predict the mass of the copper sulfide product, which states that in a closed system, the total mass of reactants before a chemical reaction must equal the total mass of products after the reaction. Since the total mass of the reactants (12.7 grams of Cu and 3.2 grams of S) is 15.9 grams, the scientist expected that the mass of the copper sulfide produced would also be 15.9 grams.