How many atoms of carbon are needed to react with 5.678mol of O2 to produce CO2? Do NOT a unit with this response? C(s) + O2(g) → CO2(9) х 10^ IF you need to use a periodic table to solve this question, please use this (LINK TO PT 2 ) Periodic Table (you may not need a periodic table for every problem). If you do not use this table, you may end up with the wrong value. Please use the whole value listed on the PT. Do not round the numbers before you calculate. Wait until you are finished with all computation before rounding with the proper significant figures.

How many atoms of carbon are needed to react with 5.678mol of O₂ to produce CO₂? Do NOT a unit with this response? 

 

Transcribed Image Text:

**Question:** How many atoms of carbon are needed to react with 5.678 mol of \( O_2 \) to produce \( CO_2 \)? Do NOT use a unit with this response. \[ C(s) + O_2(g) \rightarrow CO_2(g) \] \[ \_\_\_\_\_\_\_ \times 10^{\_} \] **Instructions:** If you need to use a periodic table to solve this question, please use this [LINK TO PT] Periodic Table (you may not need a periodic table for every problem). If you do not use this table, you may end up with the wrong value. Please use the whole value listed on the PT. Do not round the numbers before you calculate. Wait until you are finished with all computation before rounding with the proper significant figures.

Transcribed Image Text:

**Periodic Table of the Elements** This periodic table organizes elements by increasing atomic number and groups with similar chemical properties. Elements are distinguished by their chemical symbol, atomic number, and atomic weight. ### Key Features 1. **Color Coding:** - **Alkali Metals** (Red): Includes elements like Lithium (Li), Sodium (Na), and Potassium (K). - **Alkaline Earth Metals** (Orange): Includes Beryllium (Be), Magnesium (Mg), and Calcium (Ca). - **Transition Metals** (Yellow): Spans groups 3-12, including Iron (Fe), Copper (Cu), and Gold (Au). - **Basic Metals** (Green): Includes Aluminum (Al), Tin (Sn), and Lead (Pb). - **Metalloids** (Light Blue): Includes Boron (B), Silicon (Si), and Arsenic (As). - **Nonmetals** (Dark Blue): Includes Carbon (C), Nitrogen (N), and Oxygen (O). - **Halogens** (Purple): Includes Fluorine (F), Chlorine (Cl), and Iodine (I). - **Noble Gases** (Light Purple): Includes Helium (He), Neon (Ne), and Argon (Ar). - **Lanthanides** and **Actinides** (Outlined in Yellow and Green, respectively): Includes elements like Lanthanum (La) and Uranium (U). 2. **Element Information:** - Each element is displayed with its chemical symbol, atomic number, and atomic weight. For example, Oxygen (O) has an atomic number of 8 and an atomic weight of 16.00. 3. **Groups and Periods:** - Vertical columns are called groups and have elements with similar properties. - Horizontal rows are called periods, with properties changing progressively across. 4. **Structure Overview:** - *Group 1*: Alkali Metals - *Group 2*: Alkaline Earth Metals - *Groups 3-12*: Transition Metals - *Groups 13-16*: Includes basic metals, metalloids, and nonmetals. - *Group 17*: Halogens - *Group 18*: Noble Gases 5. **Special Series:** - Lanthanides (57-71): Positioned at the bottom