Enter a balanced equation for the neutralization of the following. Assume compounds containing ApO32- ion are always soluble.  H2ApO3(aq) and WnOH(aq)

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(Please show your work so I can understand any math, also I have attached a special period table in the images in case you need it.)

Enter a balanced equation for the neutralization of the following. Assume compounds containing ApO32- ion are always soluble. 


H2ApO3(aq) and WnOH(aq)

**Periodic Table of the Elements**

- This is a diagram of the periodic table, displaying chemical elements arranged by atomic number, electron configuration, and recurring chemical properties.

**Standard Elements:**

- The elements are arranged in seven rows (periods) and 18 columns (groups) based on increasing atomic numbers.
- Elements are represented with their chemical symbols and atomic weights.

**Special Notes:**

- Lanthanides and Actinides are presented in two separate rows beneath the main body, labeled with asterisks (* for Lanthanides) and daggers (‡ for Actinides).

**Additional Section:**

- There is a section listing "Elements and Polyatomic Ions NOT Accepted by IUPAC," including fictional elements and ions such as:
  - **Elements:** Ap (Apocryphor), Bg (Bogusine), Fa (Fantasiun), etc.
  - **Polyatomic Ions:** ApO₃²⁻ (Apocryphite), QuO₃²⁻ (Quackerite), WnO₃²⁻ (Quackerate), etc.

This periodic table serves as both an educational tool for understanding standard chemical elements, and it provides a humorous take on fictitious elements and polyatomic ions not recognized by the International Union of Pure and Applied Chemistry (IUPAC).
Transcribed Image Text:**Periodic Table of the Elements** - This is a diagram of the periodic table, displaying chemical elements arranged by atomic number, electron configuration, and recurring chemical properties. **Standard Elements:** - The elements are arranged in seven rows (periods) and 18 columns (groups) based on increasing atomic numbers. - Elements are represented with their chemical symbols and atomic weights. **Special Notes:** - Lanthanides and Actinides are presented in two separate rows beneath the main body, labeled with asterisks (* for Lanthanides) and daggers (‡ for Actinides). **Additional Section:** - There is a section listing "Elements and Polyatomic Ions NOT Accepted by IUPAC," including fictional elements and ions such as: - **Elements:** Ap (Apocryphor), Bg (Bogusine), Fa (Fantasiun), etc. - **Polyatomic Ions:** ApO₃²⁻ (Apocryphite), QuO₃²⁻ (Quackerite), WnO₃²⁻ (Quackerate), etc. This periodic table serves as both an educational tool for understanding standard chemical elements, and it provides a humorous take on fictitious elements and polyatomic ions not recognized by the International Union of Pure and Applied Chemistry (IUPAC).
The image displays a modified periodic table of elements. Here is a transcription of the information:

**Periodic Table Structure:**

The table shows elements by their atomic number, symbol, and atomic weight. Notably, there are some fictional elements and polyatomic ions included, which are not accepted by the IUPAC.

**Details by Row:**

- The table includes standard elements like K (Potassium, 39.10) and Kr (Krypton, 83.80), among others.
- Lanthanides and Actinides are represented as rows with elements such as La (Lanthanum, 138.91) and Ac (Actinium, 227).

**Highlighted Additions:**
 
- The table contains fictional elements and ions, indicated with assigned symbols and names.
  
**Lanthanides and Actinides:**

- Elements like Ce (Cerium, 140.12) and Th (Thorium, 232.04) are shown with their respective atomic weights.

**Fictional Elements and Polyatomic Ions (Yellow Highlight):**

1. **Elements:**
   - Ap, Apochryphor
   - Bg, Bogusine
   - Fa, Fantasium
   - Aa, Alibabium
   - Im, Imaginarium
   - Je, Jesticon
   - My, Mythologium
   - Qu, Quackery
   - Wn, Wonkium

2. **Polyatomic Ions:**
   - ApO₃²⁻, Apochryphite
   - ApO₄³⁻, Apochryphate
   - QuO₂⁻, Quackerite
   - QuO₃⁻, Quackerate

This fictional addition emphasizes a playful or educational approach, illustrating imaginary elements and compounds not officially recognized.

**Arrangement:**

- Elements are arranged in typical periodic order, with atomic number increasing left to right and top to bottom.

**Educational Focus:**

This table is likely designed to engage students with fictional elements and provoke interest in chemical nomenclature and the periodic table’s structure.
Transcribed Image Text:The image displays a modified periodic table of elements. Here is a transcription of the information: **Periodic Table Structure:** The table shows elements by their atomic number, symbol, and atomic weight. Notably, there are some fictional elements and polyatomic ions included, which are not accepted by the IUPAC. **Details by Row:** - The table includes standard elements like K (Potassium, 39.10) and Kr (Krypton, 83.80), among others. - Lanthanides and Actinides are represented as rows with elements such as La (Lanthanum, 138.91) and Ac (Actinium, 227). **Highlighted Additions:** - The table contains fictional elements and ions, indicated with assigned symbols and names. **Lanthanides and Actinides:** - Elements like Ce (Cerium, 140.12) and Th (Thorium, 232.04) are shown with their respective atomic weights. **Fictional Elements and Polyatomic Ions (Yellow Highlight):** 1. **Elements:** - Ap, Apochryphor - Bg, Bogusine - Fa, Fantasium - Aa, Alibabium - Im, Imaginarium - Je, Jesticon - My, Mythologium - Qu, Quackery - Wn, Wonkium 2. **Polyatomic Ions:** - ApO₃²⁻, Apochryphite - ApO₄³⁻, Apochryphate - QuO₂⁻, Quackerite - QuO₃⁻, Quackerate This fictional addition emphasizes a playful or educational approach, illustrating imaginary elements and compounds not officially recognized. **Arrangement:** - Elements are arranged in typical periodic order, with atomic number increasing left to right and top to bottom. **Educational Focus:** This table is likely designed to engage students with fictional elements and provoke interest in chemical nomenclature and the periodic table’s structure.
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