[VYAS EDIFICATION] How to #boil #water #without #fire #physics #science #shorts #viralvideo

🎯 Загружено автоматически через бота: 🚫 Оригинал видео: 📺 Данное видео принадлежит каналу «VYAS EDIFICATION» (@vyasedification). Оно представлено в нашем сообществе исключительно в информационных, научных, образовательных или культурных целях. Наше сообщество не утверждает никаких прав на данное видео. Пожалуйста, поддержите автора, посетив его оригинальный канал. ✉️ Если у вас есть претензии к авторским правам на данное видео, пожалуйста, свяжитесь с нами по почте support@, и мы немедленно удалим его. 📃 Оригинальное описание: How to #boil #water #without #fire #physics #science #shorts #viralvideo #science #chemistry #experiment #stem #reaction #exothermic #oxygen #h2o2 #kmno4 #boiling Have you ever wondered if water could be boiled without any flame? Today, we’re diving into the science of exothermic reactions to find out! By combining two powerful chemicals, Hydrogen Peroxide (H₂O₂) and Potassium Permanganate (KMnO₄), we’ll trigger an intense reaction that releases enough heat to make water appear to ’boil’ — without using fire! 🔍 Experiment Breakdown: Reactant 1: Hydrogen Peroxide (H₂O₂) Properties: A pale blue, clear liquid known for its oxidizing properties and its ability to release oxygen upon decomposition. Role in Reaction: Here, H₂O₂ acts as an oxidizing agent. When it comes into contact with a strong oxidizer like Potassium Permanganate, it rapidly decomposes into water (H₂O) and oxygen (O₂), releasing significant energy as heat. Reactant 2: Potassium Permanganate (KMnO₄) Properties: This dark purple, crystalline compound is a powerful oxidizing agent, often used in chemical reactions that require a strong source of oxygen. Role in Reaction: KMnO₄ interacts with H₂O₂ to enhance the decomposition rate of the hydrogen peroxide, essentially acting as a catalyst and accelerating the release of oxygen gas. The Reaction: When KMnO₄ and H₂O₂ mix, a highly exothermic (heat-releasing) reaction occurs. The hydrogen peroxide rapidly decomposes into oxygen gas and water vapor: 2 𝐻 2 𝑂 2 → 2 𝐻 2 𝑂 𝑂 2 2H 2 ​ O 2 ​ →2H 2 ​ O O 2 ​ ⚗️ Science Behind the Boiling Effect: This reaction is so energetic that it releases a significant amount of heat in a short time, generating water vapor and heating up the surrounding liquid. This heat transfer simulates boiling, as the heat makes it look like water bubbles are forming and vapor is rising — even though there’s no direct flame involved. 🔬 The Black Precipitate Mystery: During the reaction, a black precipitate forms, which may puzzle viewers. This precipitate is actually manganese dioxide (MnO₂), a byproduct of the decomposition reaction. When H₂O₂ and KMnO₄ interact, the permanganate ion (MnO₄⁻) is reduced to MnO₂, causing the distinctive dark color to appear in the solution. MnO₂ also has catalytic properties, further accelerating the decomposition of any remaining H₂O₂ and boosting the reaction’s heat output. Why It’s Exothermic: An exothermic reaction releases energy as heat, and in this case, the oxidation of hydrogen peroxide releases energy so quickly that the temperature of the surrounding water increases rapidly. This is why the reaction appears explosive and can even simulate boiling. Key Concepts: Exothermic Reaction - Releases energy in the form of heat. Decomposition - H₂O₂ breaks down into H₂O and O₂. Oxidizing Agents - KMnO₄ helps accelerate the breakdown of H₂O₂. Catalysis - MnO₂, formed in the reaction, further speeds up the process. So, if you’re curious about powerful chemical reactions, this is the perfect experiment to see chemistry in action. Leave a comment if you guessed what the black precipitate was, and stay tuned for more science wonders! Facebook: Instagram: YouTube: Telegram: Twitter (X): WhatsApp: 8727872767 Our Content Philosophy: We focus on creating educational and motivational content to inspire interest in science, mathematics, and biology. By integrating fun and real-life examples, we aim to make learning both engaging and informative. All content adheres to respect, safety, and community guidelines, using clips under the Fair Use Policy for educational purposes. Copyright Disclaimer: Our content is used for educational purposes under the Fair Use Policy. Under Section 107 of the Copyright Act 1976, allowance is made for “fair use“ for purposes such as teaching, commentary, and research. If you have any concerns about the content, please contact us at vyassocialmedia@, and we will address the issue promptly. Thank you