Looking at the periodic table, determine the charge each atom will make when it bonds with other atoms.
Column A
1. Calcium (Ca)
2. Francium (Fr)
3. Bromine (Br)
4. Sulfur (S)
5. Xenon (Xe)
6. Carbon (C)
7. Phosphorus (P)
8. Boron (B)
Column B
A. 0
B. +4/-4
C. +2
D. +1
E. -1
F. -2
G. +3
H. -3
1. Calcium (Ca) - C. +2
2. Francium (Fr) - G. +1
3. Bromine (Br) - E. -1
4. Sulfur (S) - F. -2
5. Xenon (Xe) - A. 0
6. Carbon (C) - B. +4/-4 (can form both +4 and -4 charges)
7. Phosphorus (P) - G. +3
8. Boron (B) - D. +1
Column A
1. Calcium (Ca) - Charge: +2
2. Francium (Fr) - Charge: +1
3. Bromine (Br) - Charge: -1
4. Sulfur (S) - Charge: -2
5. Xenon (Xe) - Charge: 0
6. Carbon (C) - Charge: +4/-4
7. Phosphorus (P) - Charge: +3/-3
8. Boron (B) - Charge: +3
To determine the charge each atom will make when it bonds with other atoms, you can refer to the periodic table and look at the position of the element.
Column A:
1. Calcium (Ca) is in group 2 of the periodic table, so it typically forms a +2 charge (C).
2. Francium (Fr) is in group 1 of the periodic table, so it typically forms a +1 charge (D).
3. Bromine (Br) is in group 17 of the periodic table, so it typically forms a -1 charge (E).
4. Sulfur (S) is in group 16 of the periodic table, so it typically forms a -2 charge (F).
5. Xenon (Xe) is a noble gas and does not readily form bonds or charges (A).
6. Carbon (C) is in group 14 of the periodic table and can form different charges depending on the specific compound it is in, but in general, it tends to form either +4 or -4 charges (B).
7. Phosphorus (P) is in group 15 of the periodic table, so it typically forms a -3 charge (H).
8. Boron (B) is in group 13 of the periodic table, so it typically forms a +3 charge (G).
Remember that these charges are not set in stone and can vary depending on the specific compound and its bonding arrangement. It's always important to consider the context and specific chemical reactions involved when determining the charges of atoms.