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Which is the correct mole ratio of K3PO4 to KNO3 in the chemical reaction?
To determine the correct mole ratio of K3PO4 to KNO3 in a chemical reaction, we need to know the specific balanced equation for the reaction. Generally, if K3PO4 and KNO3 are participating in a reaction together, one must balance the entire equation to find the mole ratio. For example, if the balanced equation indicates that 1 mole of K3PO4 reacts with 3 moles of KNO3, the mole ratio would be 1:3. Please provide the specific reaction for a precise ratio.
To balance a chemical equation you can change . (3 points) A. the subscripts. B. chemical formulas. C. reactants and products. D. the coefficients.?
To balance a chemical equation, you can change D. the coefficients. Coefficients are the numbers placed in front of chemical formulas to indicate the number of molecules or moles of a substance. Changing the subscripts (option A) would alter the actual compounds involved, and altering the chemical formulas (option B) or the reactants and products (option C) would change the identity of the substances.
What numbers should not be changed to balance the equations?
Coefficients in front of chemical formulas should not be changed when balancing chemical equations. These coefficients represent the number of each molecule or atom involved in the reaction and changing them would change the stoichiometry of the reaction. Only the subscripts within chemical formulas should be adjusted to balance the equation.
What are the coefficients that would correctly balance the reaction below NI plus C4H8N2O2 ----- and gt Ni(C4H8N202)2?
To balance the reaction Ni + C₄H₈N₂O₂ → Ni(C₄H₈N₂O₂)₂, the coefficients would be 1 for Ni and 2 for C₄H₈N₂O₂. This results in the balanced equation: 1 Ni + 2 C₄H₈N₂O₂ → 1 Ni(C₄H₈N₂O₂)₂.
Is 2k br2 a balanced reaction?
No, the reaction 2K + Br2 is not balanced. To balance it, you would need to change the coefficients of the reactants and products so that the same number of each type of atom is present on both sides of the reaction arrow.
Predict the products for the reaction between Cu3PO4 and KMnO4?
The reaction between Cu3(PO4)2 and KMnO4 would likely result in the formation of CuSO4, MnO2, and K3PO4 as the products. The manganese in KMnO4 would be reduced from +7 to +4 oxidation state, leading to the formation of MnO2. The copper ions from Cu3(PO4)2 would likely form copper(II) sulfate (CuSO4), while potassium phosphate (K3PO4) would also be formed.
How do you balance K3PO4 plus BACL2?
To balance the chemical equation K3PO4 + BaCl2, you would first write out the unbalanced equation: K3PO4 + BaCl2 → ? To balance it, you would need to ensure that the same number of atoms of each element are present on both sides of the equation. This means adjusting the coefficients in front of each compound until balanced.
How do you balance KOH H3PO4?
K3PO4 + 3HCl -> 3KCl + H3PO4 Since K on the reactant side has 3 potassium atoms, K on the product side should also have 3 potassium atoms to balance the equation. Since you put the 3 on KCl of the product side, another 3 has to go on the Cl on the reactant side which also matches the 3 hydrogen atoms on the product side in H3PO4. If you check, the equation is now balanced. Everything that appears on the left, equally appears on the right
What coefficients balance the equation Fe O2 Fe2O3?
The balance equation would be 4Fe + 3O2 ==> 2Fe2O3, so the coefficients are 4, 3, 2.
Why are coefficient used to balance equations?
Coefficients are used to balance equations because if you change the subscript, than you would change the substance.
What is the set of coefficients that would balance the equation cr2o3 plus cr2so43 plus li2o?
1,3,1,3
Which is the correct mole ratio of K3PO4 to KNO3 in the chemical reaction?
To determine the correct mole ratio of K3PO4 to KNO3 in a chemical reaction, we need to know the specific balanced equation for the reaction. Generally, if K3PO4 and KNO3 are participating in a reaction together, one must balance the entire equation to find the mole ratio. For example, if the balanced equation indicates that 1 mole of K3PO4 reacts with 3 moles of KNO3, the mole ratio would be 1:3. Please provide the specific reaction for a precise ratio.
What would you change to balance a chemical equation?
You can balance a chemical equation by adjusting the coefficients of the compounds involved. Start by balancing the atoms that appear in only one reactant and one product, then balance the atoms that appear in more than one compound. Finally, check that the equation is balanced by verifying that the number of each type of atom is the same on both sides of the equation.
To balance a chemical equation you can change . (3 points) A. the subscripts. B. chemical formulas. C. reactants and products. D. the coefficients.?
To balance a chemical equation, you can change D. the coefficients. Coefficients are the numbers placed in front of chemical formulas to indicate the number of molecules or moles of a substance. Changing the subscripts (option A) would alter the actual compounds involved, and altering the chemical formulas (option B) or the reactants and products (option C) would change the identity of the substances.
What numbers should not be changed to balance the equations?
Coefficients in front of chemical formulas should not be changed when balancing chemical equations. These coefficients represent the number of each molecule or atom involved in the reaction and changing them would change the stoichiometry of the reaction. Only the subscripts within chemical formulas should be adjusted to balance the equation.
What sequence of coefficients will balance the following equation Na (s) plus O2 (g) 2Na2O (s).?
The balanced equation is 4Na(s) + O2(g) → 2Na2O(s). So, the sequence of coefficients would be 4, 1, 2.
What are the correct coefficients when this chemical equation is balanced?
To provide the correct coefficients, I would need to know the specific chemical equation you are referring to. Once you provide the equation, I can help you balance it by ensuring that the number of atoms of each element is the same on both sides of the equation.
