PRAKTIKUM ELEKTROLISIS

Trining Puspita

23 Aug 202117:20

Summary

TLDRIn this educational video, the instructor guides students through an electrolytic experiment using sodium sulfate and potassium iodide solutions. With a range of equipment, including carbon and iron electrodes, they demonstrate the processes of electrolysis, showcasing the generation of hydrogen and oxygen gases. Key observations include color changes in indicators, confirming the presence of sodium hydroxide and iodine. The video emphasizes the significance of understanding these chemical reactions, providing a hands-on learning experience that blends theory and practice. Through clear explanations and engaging visuals, students are encouraged to explore the fascinating world of chemistry.

Takeaways

😀 The experiment demonstrates the process of electrolysis using sodium sulfate and potassium iodide solutions.
🔋 Essential materials include 9V batteries, carbon electrodes, U-tube, and various indicators.
📏 When filling the U-tube with sodium sulfate, the level should not exceed one centimeter below the mouth of the tube to avoid overflow during electrode insertion.
⚡ Electrolysis involves two electrodes: the anode (positive) and cathode (negative), which need to be correctly identified.
💧 At the cathode, hydrogen gas (H2) is produced, evidenced by the formation of bubbles.
🌬️ At the anode, oxygen gas is produced, also indicated by bubbling.
🔍 Testing with phenolphthalein shows that the solution at the cathode is basic (pink), while the solution at the anode is acidic (clear).
🟡 The reaction of potassium iodide results in iodine (I2) formation, which turns black when tested with starch.
🔄 The experiment also includes testing the reactivity of iron electrodes compared to carbon electrodes in the electrolysis of potassium iodide.
📝 A summary table is created to document the changes and results of the electrolysis reactions for both sodium sulfate and potassium iodide solutions.

Q & A

What is the primary purpose of the experiment discussed in the transcript?
-The primary purpose of the experiment is to perform electrolysis on sodium sulfate and potassium iodide solutions using carbon and iron electrodes.
What materials are needed for the electrolysis experiment?
-The materials needed include sodium sulfate solution, potassium iodide solution, carbon electrodes, iron electrodes, a 9V battery, and various laboratory tools such as a U-tube, crocodile clips, and an indicator.
What is the significance of identifying the anode and cathode in the experiment?
-Identifying the anode and cathode is crucial because it determines where oxidation and reduction reactions occur during electrolysis, affecting the gases and solutions produced.
What gases are produced at the cathode and anode during the electrolysis of sodium sulfate?
-Hydrogen gas (H2) is produced at the cathode, while oxygen gas (O2) is produced at the anode during the electrolysis of sodium sulfate.
How can the pH of the solutions at the anode and cathode be determined?
-The pH can be determined using a pH indicator, such as phenolphthalein, which changes color to indicate whether the solution is acidic or basic.
What observation is made when potassium iodide is electrolyzed?
-During the electrolysis of potassium iodide, yellow iodine (I2) is produced at the anode, which turns black when tested with starch.
What changes occur to the electrodes after the electrolysis with iron electrodes?
-The iron electrode shows signs of corrosion and discoloration, indicating a chemical reaction has taken place, while the carbon electrode remains unchanged.
What safety precautions should be taken during the experiment?
-Safety precautions include wearing protective eyewear and gloves, working in a well-ventilated area, and being cautious when handling chemicals and electrical equipment.
What are the implications of the results obtained from the experiment?
-The results illustrate the principles of electrolysis, including the production of gases and the effects of different electrodes, which can be applied in various fields like electrochemistry and material science.
How does the experiment contribute to understanding electrochemical processes?
-The experiment helps in understanding the reactions occurring during electrolysis, including the identification of products formed at each electrode and the application of indicators to assess changes in chemical composition.