Trim and explain the method, what are the methods of trimming

Updated on educate 2024-06-06
4 answers
  1. Anonymous users2024-02-11

    Just look at how much electrons are transferred.

  2. Anonymous users2024-02-10

    Here's how:

    1. Trim coefficient, the coefficient of each chemical formula in the balancing chemical equation.

    2. Change the single line to a double line, which is the most easily ignored part of the chemical equation.

    3. If a reaction occurs in the solution, there is no solid in the reactant, and there is a precipitate in the product, it is indicated by a "" sign on the right side of the chemical formula of the precipitate generated; There is no gas in the reactant, and if there is gas in the product, it is indicated by a " " sign on the right side of the gas generated; If both the reactant and the product have gases, there is no need to add any symbols.

    Concise trimming method for disproportionation reactions

    The three valence states are marked first, and the two are subtracted by the third line. If there is an approximation that needs to be shortened, it will be completed by leisurely observation.

    Explanation: 1. The three valence states are labeled first: it means that the first step of the simple and quick trim method of the disproportionation reaction is to first mark the valency of the molecules of different substances in the reaction formula and the elements in the disproportionation reaction.

    For example: s(0)+koh k2s(-2)+k2s(+4)o3+h2o.

    2. Subtract the third system from the two: It means that the change value (absolute value) of any two valences is the coefficient of the third party.

    3. If there is a divisibility, it needs to be reduced: it means that if there is a common divisor of the three coefficients obtained from the second step, it needs to be reduced and then added to the reaction formula.

    According to the poetic requirements, the analysis is as follows:

    In S and K2S, S(0) S(-2), the valency change value is 0-(-2) = 2, so the coefficient before K2SO3 is 2.

    In S and K2SO3, S(0) S(+4), the valency change value is 0-4 = 4, so the coefficient before K2S is 4.

    In K2S and K2SO3, S(-2) S(+4), the valency change value is (-2)-4 = 6, so the coefficient before S is 6.

    And because there is a common divisor 2, the reduction is , and the reduced coefficient is substituted into the reaction formula: 3S+KoH 2K2S+K2So3+H2O.

    4. Leisurely observation is complete: It means that after substituting the reduced coefficient into the reaction formula, you can balance it by observing it leisurely.

    Observation shows that the right side is 6 K, so 6 should be added before KOH, and 6 should be added to the left after adding 6, so 3 should be added before H2O, so the chemical reaction equation after trim is obtained: 3S+6KOH = 2K2S+K2SO3+3H2O.

  3. Anonymous users2024-02-09

    Equation trim for chemical reactions.

    a) Least common multiple method.

    This method is suitable for common chemical equations that are not too difficult. For example, in this reaction formula, the number of oxygen atoms on the right is 2, and the number of oxygen atoms on the left is 3, then the least common multiple is 6, so the coefficient before kclo3 should be matched with 2, and the coefficient before O2 should be matched with 3, and the formula becomes: 2kclo3 KCl+3O2, since the number of potassium atoms and chlorine atoms on the left becomes 2, then the coefficient 2 before KCL, ** is changed to equal sign, indicating the condition is:

    2kclo3==2kcl+3o2↑

    2) Odd-even equalization.

    This method is suitable for multiple occurrences of an element on both sides of the chemical equation, and the total number of atoms of the element on both sides is odd and even, for example: C2H2+O2 - CO2+H2O, and the balance of this equation starts with the oxygen atom with the highest number of occurrences. There are 2 oxygen atoms in O2, and the total number of oxygen atoms should be even, regardless of the number of coefficients before the chemical formula.

    Therefore, the coefficient of H2O on the right should be matched with 2 (if other molecular coefficients appear as fractions, it can be matched with 4), from which it can be deduced that the first 2 of C2H2 becomes: 2C2H2+O2==CO2+2H2O, from which it can be seen that the coefficient before CO2 should be 4, and the final coefficients with elemental O2 are 5, and the conditions can be specified:

    2c2h2+5o2==4co2+2h2o

    c) Observational balancing.

    Sometimes there will be a substance with a more complex chemical formula in the equation, we can deduce the coefficients of other chemical formulas through this complex molecule, for example: Fe + H2O - Fe3O4 + H2, Fe3O4 chemical formula is more complex, obviously, Fe3O4 Fe** in the elemental Fe, O comes from H2O, then Fe is preceded by 3, H2O is preceded by 4, then the formula is: 3Fe + 4H2O Fe3O4 + H2 This deduces that the H2 coefficient is 4, indicating the conditions, ** Change to an equal sign:

    3fe+4h2o==fe3o4+4h2↑

    4) Normalization Law.

    Find the key chemical formula in the chemical equation, set the number before the chemical formula as 1, and then balance the number before the other chemical formulas according to the key chemical formula. If the measured number is a fraction, and then the measured number is multiplied by the same integer, and the fraction is turned into an integer, this balancing method in which the key chemical formula measurement number is 1 is predetermined, which is called the normalization method. Method:

    Select the most complex chemical formula in the chemical equation, let its coefficient be 1, and then extrapolate in turn.

    Step 1: Let the coefficient of nh be: 1 1nh +o - no+h o

    Step 2: Trim the h atom, from which we get: 1NH+O - NO+3 2HO

    Step 3: The coefficient of the left end O is deduced from the total number of oxygen atoms at the right end: 1nh +5 4o - no + 3 2 h o

    Step 4: Multiply the denominator by the least common multiple: 4nh + 5o = 4no + 6h o

  4. Anonymous users2024-02-08

    Least common multiple method: kclo kcl+o In this reaction formula, the number of oxygen atoms on the right is 2, and the left is 3, then the least common multiple is 6, so the coefficient before kclo should be matched with 2, and O2 should be preceded by 3, and the formula becomes: 2kclo kcl+3o, because the number of potassium atoms and chlorine atoms on the left becomes 2, then the coefficient 2 should be matched before kcl, ** is changed to equal sign, and the condition is indicated, that is:

    2kCl ==2kCl+3O (The reaction conditions are manganese dioxide catalysis and heating.) "mno" is written above the equal sign; "Heating" is written below the equal sign, and the triangle " " can be used instead).

    The chemical reaction equation strictly adheres to the law of conservation of mass, and after writing the chemical reaction equation and writing the reactants and products, the number of atoms on the left and right sides is often not equal, and the law of conservation of mass is not satisfied, which needs to be solved by calculating the balance.

    Two principles are followed:

    The law of conservation of mass (In a chemical reaction, the type of atom before and after the reaction does not change, the number does not increase or decrease, and the mass of the atom does not change. )

    Objective facts. <>

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