Question

match the following
h₂
mgcl₂
bi
hg
n₂
i₂
c₆h₁₂o₆
b
f₂
nacl
h₂so₄

Explanation:

To solve this matching problem, we analyze each substance based on its type (element, molecule, compound, etc.) and properties:

1. \( \boldsymbol{H_2} \)

• Type: Diatomic molecule (elemental gas, hydrogen gas).
• Match: Likely with a description of a diatomic gaseous element.

2. \( \boldsymbol{MgCl_2} \)

• Type: Ionic compound (magnesium chloride, formed from \( \text{Mg}^{2+} \) and \( \text{Cl}^- \) ions).
• Match: Likely with a description of an ionic salt (e.g., "Ionic compound of magnesium and chlorine").

3. \( \boldsymbol{Bi} \)

• Type: Element (bismuth, a metal).
• Match: Likely with a description of a metallic element.

4. \( \boldsymbol{Hg} \)

• Type: Element (mercury, liquid metal at room temperature).
• Match: Likely with a description of a liquid metallic element.

5. \( \boldsymbol{N_2} \)

• Type: Diatomic molecule (elemental gas, nitrogen gas).
• Match: Likely with a description of a diatomic gaseous element (e.g., "Inert gaseous element, diatomic").

6. \( \boldsymbol{I_2} \)

• Type: Diatomic molecule (elemental solid, iodine, a halogen).
• Match: Likely with a description of a diatomic solid element (e.g., "Solid diatomic halogen").

7. \( \boldsymbol{C_6H_{12}O_6} \)

• Type: Molecular compound (glucose, a carbohydrate).
• Match: Likely with a description of a sugar or organic compound.

8. \( \boldsymbol{B} \)

• Type: Element (boron, a metalloid).
• Match: Likely with a description of a metalloid element.

9. \( \boldsymbol{F_2} \)

• Type: Diatomic molecule (elemental gas, fluorine, a halogen).
• Match: Likely with a description of a diatomic gaseous halogen.

10. \( \boldsymbol{NaCl} \)

• Type: Ionic compound (sodium chloride, table salt, formed from \( \text{Na}^+ \) and \( \text{Cl}^- \) ions).
• Match: Likely with a description of a common ionic salt (e.g., "Table salt, ionic compound").

11. \( \boldsymbol{H_2SO_4} \)

• Type: Molecular compound (sulfuric acid, a strong acid).
• Match: Likely with a description of a strong acid or oxoacid.

Since the right - hand side descriptions are not fully visible, but using the above analysis of each substance's nature (element, ionic compound, molecular compound, diatomic molecule, etc.), we can match them as follows (assuming typical descriptions):

• \( H_2 \): Diatomic gaseous element (hydrogen gas)
• \( MgCl_2 \): Ionic compound (magnesium chloride)
• \( Bi \): Metallic element (bismuth)
• \( Hg \): Liquid metallic element (mercury)
• \( N_2 \): Diatomic gaseous element (nitrogen gas)
• \( I_2 \): Diatomic solid element (iodine)
• \( C_6H_{12}O_6 \): Organic compound (glucose)
• \( B \): Metalloid element (boron)
• \( F_2 \): Diatomic gaseous halogen (fluorine)
• \( NaCl \): Ionic compound (sodium chloride)
• \( H_2SO_4 \): Strong acid (sulfuric acid)

If we were to provide a final answer for a specific match (e.g., \( H_2 \) with "Diatomic gaseous element"), but without full right - hand text, the key is to classify each substance by its chemical identity (element, compound, state, bonding type) and match accordingly.

For example, if one of the right - hand options is "Diatomic gaseous element", \( H_2 \), \( N_2 \), \( F_2 \) would be candidates, and we choose the most appropriate based on context (e.g., \( H_2 \) for hydrogen - related description, \( N_2 \) for nitrogen - related, etc.).

If we assume a common match for \( H_2 \):

Answer:

\( H_2 \) matches with the description of "Diatomic gaseous element (hydrogen gas)" (or equivalent based on full right - hand text).

(Note: For the full set, each substance must be matched to its corresponding description using chemical classification. If you provide the full right - hand text, we can give more precise matches.)