+ MOLES 2 3 THANK YOU 6.02 x 1023 PARTICLES 3.01 x 1023 9.03 x 1023 22.4 L of gas at STP LITERS 5.6 44.8 Periodic Table GRAMS g Ne 8 F₂ g Cl₂ 22g CO₂ g H₂ g He g NH3

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Please help with table attached. Thank you

### Mole Conversion Chart

This educational chart serves as a guide to mole conversions in chemistry. It helps in understanding the relationships between moles, particles, liters, and grams using Avogadro's number and standard gas volume at STP (Standard Temperature and Pressure).

**Header Information:**
- At the top center, we see key constants:
  - **6.02 x 10²³**: Avogadro's number, which is the number of particles in one mole.
  - **22.4 Liters**: The volume occupied by one mole of gas at STP.

**Illustration:**
- There is an illustration of a mole (the animal) and a person expressing gratitude with a "Thank You" sign, symbolically linking the mole concept to chemistry.

**Table Explanation:**

- **Columns:**
  1. **MOLES**: Number of moles of a substance.
  2. **PARTICLES (atoms, molecules, etc.)**: Corresponding number of particles.
  3. **LITERS**: Volume in liters a certain number of moles of gas would occupy at STP.
  4. **GRAMS**: Weight in grams, depending on the molecular weight from the Periodic Table.

- **Data:**
  - For **2 moles**: Not specified for particles; 5.6 liters; mass calculations dependent on the per-gram value for each substance listed.
  - Particles: For 3.01 x 10²³ particles, the conversion specifics such as moles or liters are absent.
  - Liters: 5.6 liters corresponds to an unspecified amount in other terms.
  - Grams: Specific weights are linked to different elements or compounds like Neon (Ne), Fluorine (F₂), Chlorine (Cl₂), Carbon Dioxide (CO₂), and more. Notably, 22g is specified for CO₂.
  - For **3 moles**: Corresponds with 9.03 x 10²³ particles.

This chart is intended to facilitate calculations in stoichiometry and gas laws, by guiding conversions from moles to particles, volume, and mass. For accurate results, one should also refer to the Periodic Table to find the molar mass of the substances in question.
Transcribed Image Text:### Mole Conversion Chart This educational chart serves as a guide to mole conversions in chemistry. It helps in understanding the relationships between moles, particles, liters, and grams using Avogadro's number and standard gas volume at STP (Standard Temperature and Pressure). **Header Information:** - At the top center, we see key constants: - **6.02 x 10²³**: Avogadro's number, which is the number of particles in one mole. - **22.4 Liters**: The volume occupied by one mole of gas at STP. **Illustration:** - There is an illustration of a mole (the animal) and a person expressing gratitude with a "Thank You" sign, symbolically linking the mole concept to chemistry. **Table Explanation:** - **Columns:** 1. **MOLES**: Number of moles of a substance. 2. **PARTICLES (atoms, molecules, etc.)**: Corresponding number of particles. 3. **LITERS**: Volume in liters a certain number of moles of gas would occupy at STP. 4. **GRAMS**: Weight in grams, depending on the molecular weight from the Periodic Table. - **Data:** - For **2 moles**: Not specified for particles; 5.6 liters; mass calculations dependent on the per-gram value for each substance listed. - Particles: For 3.01 x 10²³ particles, the conversion specifics such as moles or liters are absent. - Liters: 5.6 liters corresponds to an unspecified amount in other terms. - Grams: Specific weights are linked to different elements or compounds like Neon (Ne), Fluorine (F₂), Chlorine (Cl₂), Carbon Dioxide (CO₂), and more. Notably, 22g is specified for CO₂. - For **3 moles**: Corresponds with 9.03 x 10²³ particles. This chart is intended to facilitate calculations in stoichiometry and gas laws, by guiding conversions from moles to particles, volume, and mass. For accurate results, one should also refer to the Periodic Table to find the molar mass of the substances in question.
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