BALANCEAMENTO POR OXIRREDUÇÃO - PASSO A PASSO

Professor Gabriel Cabral

29 Jun 202009:13

Summary

TLDRIn this engaging chemistry lesson, Gabriel Cabral guides viewers through the process of balancing redox reactions. He simplifies complex concepts by breaking down the four key steps: determining oxidation states (NOX), calculating changes in oxidation states (delta NOX), applying delta NOX to balance atoms, and using trial and error for final adjustments. With his approachable, humorous teaching style, Gabriel makes redox reactions accessible and fun, empowering students to master the topic with confidence. The video encourages interaction, sharing, and further learning in the field of chemistry.

Takeaways

😀 Determine the oxidation numbers (NOX) of all elements involved in the redox reaction.
😀 Calculate the change in oxidation numbers (ΔNOX) to identify which elements are oxidized and which are reduced.
😀 The oxidation state increases for elements undergoing oxidation (loss of electrons).
😀 The oxidation state decreases for elements undergoing reduction (gain of electrons).
😀 The change in oxidation numbers (ΔNOX) helps to determine how many atoms are involved in oxidation or reduction.
😀 Use the method of trial and error to balance atoms and charges in the reaction equation.
😀 Adjust the coefficients of molecules to balance oxygen and hydrogen atoms across both sides of the equation.
😀 Oxidation-reduction reactions (redox) are especially useful when balancing large reactions that cannot be balanced by simple methods.
😀 Redox balancing is considered a more advanced method than other simpler methods like the trial and error approach for small reactions.
😀 The process includes a systematic approach: calculate NOX, determine ΔNOX, balance atoms, and adjust with coefficients.
😀 Understanding the key concepts of NOX and ΔNOX is essential to mastering redox reaction balancing in chemistry.

Q & A

What is the first step in balancing a redox reaction, as explained in the video?
-The first step is to determine the oxidation state (NOX) of all the elements involved in the reaction.
How do you calculate the delta NOX for an element?
-To calculate the delta NOX, subtract the initial oxidation state from the final oxidation state of the element. This tells you the change in oxidation state.
What does the delta NOX represent in a redox reaction?
-The delta NOX represents the number of electrons gained or lost by an element during oxidation or reduction. It also helps to determine how many atoms undergo oxidation or reduction.
What is the significance of using delta NOX in balancing a redox reaction?
-Delta NOX helps identify how many atoms of an element undergo oxidation and reduction. It is essential for determining the correct number of atoms to balance the equation.
What should you do if you cannot balance a redox reaction using trial and error?
-If trial and error do not work, you can use the oxidation-reduction method (oxirredução), which involves calculating the oxidation states and the changes in oxidation states more systematically.
When does the teacher suggest using the redox method (oxirredução) instead of trial and error?
-The teacher suggests using the redox method when the reaction is complex or when trial and error do not easily lead to a balanced equation.
What does the teacher mean by 'tabulating the NOX values' for elements in a reaction?
-Tabulating the NOX values means creating a table where the oxidation states of all elements involved in the reaction are clearly listed, helping in tracking their changes during oxidation or reduction.
How does the teacher explain the calculation for the NOX of sulfur in the reaction?
-The teacher explains that to find the NOX of sulfur, you multiply the charge of oxygen (which is -2) by the number of oxygens involved, then balance the charge by assigning the appropriate NOX to sulfur.
Why does the teacher stress the importance of understanding NOX values before starting the redox balancing?
-Understanding NOX values is crucial because they determine which elements are oxidized and which are reduced, guiding how to balance the atoms and charges in the reaction.
What method does the teacher recommend for balancing reactions when simple trial and error do not work?
-When trial and error fail, the teacher recommends using the redox (oxirredução) method, which involves calculating and balancing oxidation states more precisely.
What is the role of the delta NOX value in determining the number of atoms involved in oxidation or reduction?
-The delta NOX value indicates how many atoms of an element are involved in oxidation or reduction. A larger delta NOX means more atoms are involved in the reaction on that side.
How does the teacher demonstrate balancing a reaction using the method taught in the video?
-The teacher demonstrates balancing by calculating the NOX values for sulfur and bromine, using the delta NOX values to determine the required number of atoms, and then adjusting coefficients in the equation to balance it.