Step 1: Given equation
Bạn đang xem: h2so4 + koh
Step 2: Method used for balancing the equation
Using the traditional method of balancing chemical equations. According đồ sộ the method:
- First, compare the total number of atoms of each element on the reactant side and the product side.
- Add stoichiometric coefficients đồ sộ molecules containing an element that has a different number of atoms on the reactant side and the product side.
- The coefficient must balance the number of atoms on each side.
- Usually, the stoichiometric coefficients for hydrogen and oxygen atoms are assigned last.
- The number of atoms of an element in one species must be obtained by multiplying the stoichiometric coefficient by the total number of atoms of that element present in 1 molecule of the species.
- Repeat this process till the number of all the atoms of the reacting elements are equal on both the reactant and product sides.
Step 3: Balancing the given equation
The given equation is:
Xem thêm: x là tập hợp các nước ở khu vực đông nam á
Equation: Reactant Side Product Side 1 Potassium atoms 2 Potassium atoms 1 Sulphur atom 1 Sulphur atom 3 Hydrogen atoms 2 Hydrogen atoms 5 Oxygen atoms 5 Oxygen atoms
First, the potassium atoms are balanced. After balancing the equation becomes:
Then the hydrogen atoms are balanced. After balancing the equation becomes:
The oxygen atoms are balanced.
Xem thêm: cuo cuno32
The updated equation is:
Equation: Reactant Side Product Side 2 Potassium atoms 2 Potassium atoms 1 Sulphur atom 1 Sulphur atom 4 Hydrogen atoms 4 Hydrogen atoms 6 Oxygen atoms 6 Oxygen atoms
Since the number of all the atoms of the reacting elements are equal on both the reactant and product sides are equal, the equation is balanced.
Hence the balanced equation is: .
Step 1: Given equation
Bạn đang xem: h2so4 + koh
Step 2: Method used for balancing the equation
Using the traditional method of balancing chemical equations. According đồ sộ the method:
- First, compare the total number of atoms of each element on the reactant side and the product side.
- Add stoichiometric coefficients đồ sộ molecules containing an element that has a different number of atoms on the reactant side and the product side.
- The coefficient must balance the number of atoms on each side.
- Usually, the stoichiometric coefficients for hydrogen and oxygen atoms are assigned last.
- The number of atoms of an element in one species must be obtained by multiplying the stoichiometric coefficient by the total number of atoms of that element present in 1 molecule of the species.
- Repeat this process till the number of all the atoms of the reacting elements are equal on both the reactant and product sides.
Step 3: Balancing the given equation
The given equation is:
Xem thêm: x là tập hợp các nước ở khu vực đông nam á
| Equation: | |
| Reactant Side | Product Side |
| 1 Potassium atoms | 2 Potassium atoms |
| 1 Sulphur atom | 1 Sulphur atom |
| 3 Hydrogen atoms | 2 Hydrogen atoms |
| 5 Oxygen atoms | 5 Oxygen atoms |
First, the potassium atoms are balanced. After balancing the equation becomes:
Then the hydrogen atoms are balanced. After balancing the equation becomes:
The oxygen atoms are balanced.
Xem thêm: cuo cuno32
The updated equation is:
| Equation: | |
| Reactant Side | Product Side |
| 2 Potassium atoms | 2 Potassium atoms |
| 1 Sulphur atom | 1 Sulphur atom |
| 4 Hydrogen atoms | 4 Hydrogen atoms |
| 6 Oxygen atoms | 6 Oxygen atoms |
Since the number of all the atoms of the reacting elements are equal on both the reactant and product sides are equal, the equation is balanced.
Hence the balanced equation is: .
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