AnthroPod is produced by the Society for Cultural Anthropology. In each episode, we explore what anthropology teaches us about the world and people around us.
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Player FM - Internet Radio Done Right
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Seneca Learning에서 제공하는 콘텐츠입니다. 에피소드, 그래픽, 팟캐스트 설명을 포함한 모든 팟캐스트 콘텐츠는 Seneca Learning 또는 해당 팟캐스트 플랫폼 파트너가 직접 업로드하고 제공합니다. 누군가가 귀하의 허락 없이 귀하의 저작물을 사용하고 있다고 생각되는 경우 여기에 설명된 절차를 따르실 수 있습니다 https://ko.player.fm/legal.
REVISE GCSE Chemistry - A podcast by Seneca Learning와 비슷한 콘텐츠
An award-winning cannabis podcast for women, by women. Hear joyful stories and useful advice about cannabis for health, well-being, and fun—especially for needs specific to women like stress, sleep, and sex. We cover everything from: What’s the best weed for sex? Can I use CBD for menstrual cramps? What are the effects of the Harlequin strain or Gelato strain? And, why do we prefer to call it “cannabis” instead of “marijuana”? We also hear from you: your first time buying legal weed, and how ...
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Interviews with mathematics education researchers about recent studies. Hosted by Samuel Otten, University of Missouri. www.mathedpodcast.com Produced by Fibre Studios
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Are you looking for more happiness, success and vitality in your life? Get inspired each week with wellness and performance expert, Integrative Medicine Fellow, author & keynote speaker, Kristel Bauer. Live Greatly shares empowering conversations and insights about happiness, wellness & success to support your personal and professional development. Kristel talks with top experts, leaders and inspiring individuals to help you embrace a growth mindset and excel in your work/life. Kristel then ...
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Españolistos | Learn Spanish With Fun Conversations!
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BackStory is a weekly public podcast hosted by U.S. historians Ed Ayers, Brian Balogh, Nathan Connolly and Joanne Freeman. We're based in Charlottesville, Va. at Virginia Humanities. There’s the history you had to learn, and the history you want to learn - that’s where BackStory comes in. Each week BackStory takes a topic that people are talking about and explores it through the lens of American history. Through stories, interviews, and conversations with our listeners, BackStory makes histo ...
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Player FM -팟 캐스트 앱
Player FM 앱으로 오프라인으로 전환하세요!
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Netflix Is A Daily Joke
Tom Segura jokes about supermodels in his Netflix special, "Sledgehammer".
REVISE GCSE Chemistry - A podcast by Seneca Learning
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Seneca Learning에서 제공하는 콘텐츠입니다. 에피소드, 그래픽, 팟캐스트 설명을 포함한 모든 팟캐스트 콘텐츠는 Seneca Learning 또는 해당 팟캐스트 플랫폼 파트너가 직접 업로드하고 제공합니다. 누군가가 귀하의 허락 없이 귀하의 저작물을 사용하고 있다고 생각되는 경우 여기에 설명된 절차를 따르실 수 있습니다 https://ko.player.fm/legal.
Welcome to REVISE, the ultimate podcast for those ready to ace their Chemistry GCSE exams! Are you feeling the exam pressure building up like a stack of unread textbooks? Fear not! Join us as we transform daunting topics into digestible, engaging, and easy-to-follow episodes. To see all of Seneca Learning's available content, visit our website https://app.senecalearning.com/
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모두 재생(하지 않음)으로 표시
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Seneca Learning에서 제공하는 콘텐츠입니다. 에피소드, 그래픽, 팟캐스트 설명을 포함한 모든 팟캐스트 콘텐츠는 Seneca Learning 또는 해당 팟캐스트 플랫폼 파트너가 직접 업로드하고 제공합니다. 누군가가 귀하의 허락 없이 귀하의 저작물을 사용하고 있다고 생각되는 경우 여기에 설명된 절차를 따르실 수 있습니다 https://ko.player.fm/legal.
Welcome to REVISE, the ultimate podcast for those ready to ace their Chemistry GCSE exams! Are you feeling the exam pressure building up like a stack of unread textbooks? Fear not! Join us as we transform daunting topics into digestible, engaging, and easy-to-follow episodes. To see all of Seneca Learning's available content, visit our website https://app.senecalearning.com/
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185 에피소드
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Identifying Ions: Flame Emission Spectroscopy 🔥 GCSE Chemistry Learning & Revision 6:15
6:15 
나중에 재생 
나중에 재생 
리스트 
좋아요 
좋아요6:15
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we discuss flame emission spectroscopy. Flame emission spectroscopy is an analytical technique used to determine the identity and amount of metal ions in a liquid sample. The process involves introducing the sample to a flame, which causes the metal ions to emit light at specific wavelengths . A spectroscope then separates this light into a unique line spectrum for each metal present. By analysing these spectra and comparing their intensity to reference data, both the types and concentrations of metal ions within the solution can be established, even in mixtures. Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Identifying Ions: Sulfates 🧪 GCSE Chemistry Learning & Revision 5:55
5:55 나중에 재생 나중에 재생 리스트 좋아요 좋아요5:55
나중에 재생 나중에 재생 리스트 좋아요 좋아요This episode details a two-step chemical test used to identify the presence of sulfate ions in a solution. First, dilute hydrochloric acid is added to eliminate any interfering carbonate ions. Next, barium chloride is introduced to the solution. If sulfate ions are present, they will react with the barium ions to form a characteristic white precipitate of barium sulfate . This visible reaction confirms the existence of sulfates in the original sample. Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Identifying Ions: Halides 🧪 GCSE Chemistry Learning & Revision 5:49
5:49 나중에 재생 나중에 재생 리스트 좋아요 좋아요5:49
나중에 재생 나중에 재생 리스트 좋아요 좋아요This episode discusses how to identify halides. To identify halide ions, in a solution, a two-step process is employed. First, dilute nitric acid is added to eliminate any carbonate ions that could interfere with the subsequent test. Following this, silver nitrate is introduced. The presence of halide ions is indicated by the formation of a precipitate; silver chloride appears white, silver bromide is cream-coloured, and silver iodide presents pale yellow. These observations allow for the identification of the specific halide anion present. Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Purity, Formulations & Chromatography: Chromatography 🧪 GCSE Chemistry Learning & Revision 4:04
4:04 나중에 재생 나중에 재생 리스트 좋아요 좋아요4:04
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we discuss chromatography. Chromatography is a technique used to separate the components of a mixture . This process relies on two phases: a mobile phase that carries substances and a stationary phase that impedes their movement. The separation occurs because different substances have varying affinities for these two phases. If a substance is more attracted to the mobile phase, it travels further; conversely, greater attraction to the stationary phase results in less movement. The effectiveness of separation can be influenced by the solvent used as the mobile phase. Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Alkenes & Alcohols: Addition Polymers 🔗 GCSE Chemistry Learning & Revision 4:18
4:18 나중에 재생 나중에 재생 리스트 좋아요 좋아요4:18
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we talk about addition polymerisation. Addition polymerisation is a process where numerous short-chain monomers , specifically alkenes , combine to form a single long-chain polymer . This occurs because the carbon-carbon double bonds in the alkene monomers break, enabling them to link together. Notably, the resulting polymer is the sole product of this reaction, meaning its repeating unit possesses the same atoms as the initial monomer. Naming these polymers involves prefixing 'poly' to the bracketed name of the starting monomer, as illustrated by the formation of poly(ethene) from ethene and poly(propene) from propene. Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Alkenes & Alcohols: Reactions of Carboxylic Acids 🧪 GCSE Chemistry Learning & Revision 4:44
4:44 나중에 재생 나중에 재생 리스트 좋아요 좋아요4:44
나중에 재생 나중에 재생 리스트 좋아요 좋아요This episode outlines the fundamental aspects of carboxylic acids. We begin by listing and providing the chemical formulas for the four smallest carboxylic acids in order of increasing size: methanoic, ethanoic, propanoic, and butanoic acids. We then describes typical chemical reactions that carboxylic acids undergo . These reactions include interactions with carbonates, resulting in a salt, carbon dioxide, and water , as well as their dissolution in water to form acidic solutions. Finally, the text explains that carboxylic acids react with alcohols in the presence of an acid catalyst to produce esters and water , illustrated with the example of ethanoic acid and ethanol forming ethyl ethanoate and water. Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Alkenes & Alcohols: Fermentation 🍺 GCSE Chemistry Learning & Revision 7:00
7:00 나중에 재생 나중에 재생 리스트 좋아요 좋아요7:00
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we discuss fermentation. Fermentation , a common method for making ethanol, a key ingredient in alcoholic beverages, is detailed. The process involves adding yeast to a sugary liquid . This results in a reaction that yields ethanol in a water-based solution and carbon dioxide . Optimal conditions for this process include a temperature of 37°C, a slightly acidic environment, and the absence of oxygen . In essence, the episode outlines the fundamental process and necessary conditions for producing ethanol through fermentation. Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Alkenes & Alcohols: Reactions of Alcohols 🧪 GCSE Chemistry Learning & Revision 5:18
5:18 나중에 재생 나중에 재생 리스트 좋아요 좋아요5:18
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we discuss reactions of alcohols. Alcohols exhibit consistent reactivity with various substances. When mixed with water, they form neutral solutions. Their reaction with sodium yields hydrogen gas. Strong oxidising agents transform alcohols into carboxylic acids. Finally, in the presence of air and heat, alcohols undergo complete combustion, producing carbon dioxide and water, as exemplified by the provided equation for methanol. Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Alkenes & Alcohols: The Smallest Alcohols 🧪 GCSE Chemistry Learning & Revision 6:00
6:00 나중에 재생 나중에 재생 리스트 좋아요 좋아요6:00
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we discuss alcohol and the smallest alcohols. Alcohols are organic compounds characterised by the presence of a hydroxyl group (-OH). They form a homologous series with a general chemical formula of CnH2n+1OH. The episode specifically outlines the four smallest members of this series. These are presented in order of increasing size: methanol (CH3OH), ethanol (CH3CH2OH), propanol (CH3CH2CH2OH), and butanol (CH3CH2CH2CH2OH). The information therefore serves as a basic introduction to the structural features and initial members of the alcohol family. Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Carbon Compounds: Process of Fractional Distillation ⛽ GCSE Chemistry Learning & Revision 5:43
5:43 나중에 재생 나중에 재생 리스트 좋아요 좋아요5:43
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we discuss fractional distillation, a method for separating hydrocarbons found in crude oil based on their varied boiling points . The process begins with heating crude oil to create a vapour , which then enters a fractionating column. As the vapour rises, different-sized hydrocarbons condense at different temperature levels , with longer chains condensing lower down due to their higher boiling points, and shorter chains condensing higher up. These collected fractions can then be used as fuels or as feedstock for the petrochemical industry to produce other materials. Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Carbon Compounds: Properties of Hydrocarbons ⛽ GCSE Chemistry Learning & Revision 5:10
5:10 나중에 재생 나중에 재생 리스트 좋아요 좋아요5:10
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we discuss the properties of hydrocarbons. Hydrocarbon characteristics are directly influenced by their chain length. Specifically, longer hydrocarbon chains exhibit elevated boiling points and increased viscosity, meaning they are thicker and less prone to flow. Conversely, hydrocarbons with extended chains demonstrate reduced flammability. Therefore, the size of a hydrocarbon molecule is a key determinant of its physical and chemical behaviours , particularly regarding its suitability as a fuel source. Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Reversible Reactions: Conditions and Equilibrium ⚖️ GCSE Chemistry Learning & Revision 3:57
3:57 나중에 재생 나중에 재생 리스트 좋아요 좋아요3:57
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we discuss conditions and equilibrium in a reversible reaction. Reversible reactions reach a state of equilibrium , where the amounts of reactants and products remain constant. Altering the conditions of such a system will disrupt this balance. Le Chatelier's principle explains that the system will respond in a way that opposes the imposed change, attempting to re-establish equilibrium. This principle serves as a tool for predicting how a system at equilibrium will shift when subjected to new conditions. The analogy of falling off and then successfully mounting a horse illustrates the system's tendency to return to a state of balance after a disturbance. Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Rate of Reaction: Key Factors of Rate of Reaction 💥 GCSE Chemistry Learning & Revision 5:26
5:26 나중에 재생 나중에 재생 리스트 좋아요 좋아요5:26
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we discuss the key factors of rate of reaction. Several key factors influence how quickly chemical reactions proceed. Primarily, a higher concentration or pressure of reactants leads to more frequent collisions between particles, thereby accelerating the reaction rate. Similarly, increasing the surface area of solid reactants enhances the number of exposed particles available for reaction, resulting in a faster process. Furthermore, elevated temperatures provide reactant particles with more energy, causing more frequent and effective collisions that overcome the activation energy barrier. Finally, catalysts are substances that speed up reactions without being consumed by lowering the activation energy required. Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Rate of Reaction: Chemical Reactions 💥 GCSE Chemistry Learning & Revision 4:25
4:25 나중에 재생 나중에 재생 리스트 좋아요 좋아요4:25
나중에 재생 나중에 재생 리스트 좋아요 좋아요This episode explores the significance of chemical reaction rates, particularly within industrial contexts. We highlight that while faster reactions can increase production output , they are not always optimal. There are potential downsides to accelerated reaction speeds, including elevated costs associated with creating the necessary conditions and increased safety risks. Consequently, industrial applications of chemical reactions necessitate a careful balance between the desired speed and practical considerations of expense and security to maximise profit. Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Chemical Cells & Fuel Cells: Hydrogen as an Alternative 🔋 GCSE Chemistry Learning & Revision 5:35
5:35 나중에 재생 나중에 재생 리스트 좋아요 좋아요5:35
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we discuss hydrogen fuel cells as a potential replacement for rechargeable batteries. Hydrogen fuel cells offer advantages in several key areas. The episode highlights that fuel cells produce only water as a byproduct, contrasting with the toxic materials found in batteries , which can lead to pollution upon disposal. Furthermore, hydrogen fuel cells boast a longer lifespan and greater energy capacity compared to batteries , which require periodic replacement and more frequent recharging. However, the text also acknowledges the risks associated with hydrogen storage due to its high pressure and flammability . Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Chemical Measurements: Solution Concentrations and Calculations 🧪 GCSE Chemistry Learning & Revision 4:58
4:58 나중에 재생 나중에 재생 리스트 좋아요 좋아요4:58
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we discuss the concentrations of solutions and how to calculate them . Understanding solution concentrations involves quantifying the amount of a solute within a given volume of solvent, and this can be expressed using moles or mass . The document outlines how to calculate solution concentration by dividing the quantity of the substance by the total volume. Furthermore, it explains how to determine the amount of solute present if the concentration and volume are known. Finally, the text indicates that solution concentrations can be ascertained by analysing the volumes and concentrations of reacting solutions . Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Chemical Measurements: Reaction Pathway 🧪 GCSE Chemistry Learning & Revision 4:42
4:42 나중에 재생 나중에 재생 리스트 좋아요 좋아요4:42
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we will discuss reaction pathways. Efficient chemical reactions are favoured for their cost-effectiveness and minimal waste generation, as highlighted by the concept of atom economy , which measures the proportion of reactants incorporated into desired products. However, selecting the best reaction pathway involves considering factors beyond just atom economy. Chemists also evaluate reactant costs , percentage yield , reaction speed , the utility of by-products , and the equilibrium position to make informed decisions about chemical processes. These combined considerations ensure both economic and environmental sustainability in chemical synthesis. Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Chemical Measurements: Moles & Yield 🧪 GCSE Chemistry Learning & Revision 6:34
6:34 나중에 재생 나중에 재생 리스트 좋아요 좋아요6:34
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we talk about moles and yield . Calculating the amount of substances in chemistry often involves the concept of moles. We outline methods to determine the number of moles using either the concentration and volume of a solution or the mass and relative formula mass of a substance. Furthermore, we explain how to calculate the theoretical yield of a reaction based on moles and a balanced chemical equation , which represents the maximum possible product. Finally, the episode details how to determine the percentage yield by comparing the actual yield (obtained experimentally) to this calculated theoretical yield. These calculations are fundamental for assessing the efficiency of a chemical reaction. Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Chemical Measurements: Balancing Chemical Equations ⚖️ GCSE Chemistry Learning & Revision 4:08
4:08 나중에 재생 나중에 재생 리스트 좋아요 좋아요4:08
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we discuss balancing chemical equations. Chemical equations require balancing to ensure an equal count of each element's atoms on both the reactant and product sides of a reaction. The provided example illustrates this process using the formation of water from hydrogen and oxygen . Initially, the equation H₂ + O₂ → H₂O is unbalanced due to differing oxygen atom numbers. Adding a water molecule (H₂ + O₂ → 2H₂O) then imbalances the hydrogen atoms. The equation is finally balanced by adding a hydrogen molecule to the reactants , resulting in 2H₂ + O₂ → 2H₂O. Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Chemical Measurements: Changing Mass 💨 GCSE Chemistry Learning & Revision 5:03
5:03 나중에 재생 나중에 재생 리스트 좋아요 좋아요5:03
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we discuss changing mass. Changes in mass during chemical reactions are often observed due to the gaseous nature of some reactants or products , which can either escape into or be absorbed from the surroundings. For instance, burning wood appears to lose mass as carbon dioxide and water vapour dissipate. Conversely, metal corrosion shows a mass increase because oxygen from the air chemically combines with the metal. Similarly, the reaction between zinc and hydrochloric acid results in a mass decrease due to the release of hydrogen gas. Therefore, these examples illustrate how mass alterations in chemical reactions are frequently linked to the involvement of gases . Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Chemical Properties: Nanoparticles & Nanotechnology Uses 🔬 GCSE Chemistry Learning & Revision 5:04
5:04 나중에 재생 나중에 재생 리스트 좋아요 좋아요5:04
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we discuss nanoparticles and their uses. Nanoparticles are defined as extremely small particles, ranging from 1 to 100 nanometres, a focus of the scientific field of nanoscience. A key characteristic of these materials is their significantly high surface area to volume ratio, leading to enhanced efficiency and potential cost savings in various applications. Currently, nanoparticles are employed as catalysts to speed up chemical reactions, in medicine for targeted drug delivery, in electronics for improved conductivity, and in cosmetics and deodorants due to their transparency and antimicrobial properties. While numerous uses have been identified, the relatively new nature of nanoscience means potential long-term environmental and health impacts are still being investigated. Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Chemical Properties: Fullerenes ⚽ GCSE Chemistry Learning & Revision 5:34
5:34 나중에 재생 나중에 재생 리스트 좋아요 좋아요5:34
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we discuss fullerenes, which are a class of carbon molecules forming hollow structures , often with hexagonal rings alongside pentagonal or heptagonal ones. The initial discovery, buckminsterfullerene (C60), is a spherical fullerene with potential applications as catalysts, lubricants, and drug carriers. Another key type is cylindrical fullerenes, or carbon nanotubes , which possess exceptional strength and electrical conductivity due to strong covalent bonds. These properties make nanotubes valuable in electronics, nanotechnology, and reinforcing materials . Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Chemical Properties: Graphene 💪 GCSE Chemistry Learning & Revision 4:11
4:11 나중에 재생 나중에 재생 리스트 좋아요 좋아요4:11
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, graphene, a unique form of carbon , is explored regarding its fundamental characteristics. The provided text highlights graphene's ability to conduct electricity due to its freely moving electrons, a trait it shares with graphite as a single-layer derivative. Despite its incredibly thin, two-dimensional structure , graphene exhibits remarkable lightness coupled with substantial strength because of its strong atomic bonds. Consequently, the material holds significant promise across various sectors, notably in electronics and composite materials , where its strength-to-weight ratio is particularly advantageous for applications like batteries and solar panels. Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Chemical Properties: Graphite ✏️ GCSE Chemistry Learning & Revision 3:50
3:50 나중에 재생 나중에 재생 리스트 좋아요 좋아요3:50
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we discuss graphite. Graphite , a form of carbon, possesses a layered structure where each carbon atom forms strong covalent bonds with three others. These layers, composed of hexagonal rings, are held together by weak forces, allowing them to slide easily, which explains graphite's softness and use as a lubricant and in pencils . Furthermore, each carbon atom having one freely moving electron accounts for graphite's ability to conduct electricity. Therefore, the text describes graphite's atomic arrangement and how this structure gives rise to its characteristic properties and applications. Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Chemical Properties: Diamond 💎 GCSE Chemistry Learning & Revision 4:32
4:32 나중에 재생 나중에 재생 리스트 좋아요 좋아요4:32
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we will discuss diamonds. Diamond, a form of carbon, is characterised by its unique structure and resulting properties. Each carbon atom within a diamond forms strong covalent bonds with four neighbouring carbon atoms, establishing an extensive network. This robust bonding arrangement is the underlying reason for a diamond's exceptional hardness, making it suitable for cutting applications. Furthermore, the absence of mobile electrons within this structure means that a diamond does not conduct electricity. Finally, due to the sheer strength and quantity of its covalent bonds, diamond exhibits a very high melting point, requiring substantial energy to break down its lattice. Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Chemical Properties: Conductors ⚡ GCSE Chemistry Learning & Revision 5:05
5:05 나중에 재생 나중에 재생 리스트 좋아요 좋아요5:05
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we talk about metals as conductors. Metals are proficient at conducting both heat and electricity due to the presence of delocalised electrons . These freely moving electrons within the metal's structure can carry an electrical charge from a negative to a positive terminal , explaining their electrical conductivity. Similarly, these same mobile electrons facilitate the transfer of heat energy throughout the metallic lattice, accounting for their thermal conductivity. The presence of these "sea" of delocalised electrons is the fundamental reason behind the excellent conductive properties observed in metals. Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Chemical Properties: Pure Metals 🪨 GCSE Chemistry Learning & Revision 4:02
4:02 나중에 재생 나중에 재생 리스트 좋아요 좋아요4:02
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we are discussing pure metals. Pure metals possess large, interconnected structures held together by powerful electrostatic attractions between positively charged ions and freely moving electrons. These consistent arrangements of identically sized ions in layers contribute to characteristic properties. Consequently, the strength of these metallic bonds results in elevated melting and boiling temperatures . Furthermore, the layered structure allows ions to slide past one another without breaking these bonds , explaining why pure metals are typically soft and easily shaped. Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Chemical Properties: Chemical Properties of Small Molecules 🧪 GCSE Chemistry Learning & Revision 5:36
5:36 나중에 재생 나중에 재생 리스트 좋아요 좋아요5:36
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we discuss small covalent molecules and their chemical properties. Small covalent molecules possess strong internal covalent bonds but weak intermolecular forces between them, leading to low melting and boiling points and often a gaseous or liquid state at room temperature. Conversely, larger covalent molecules exhibit stronger intermolecular forces due to their size , resulting in higher melting and boiling points and a tendency to be solid at room temperature, exemplified by sucrose. Regardless of size, these molecules typically cannot conduct electricity as they lack delocalised electrons. Thus, the magnitude of intermolecular forces , influenced by molecular size, significantly dictates the observable physical properties of covalent compounds. Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Chemical Bonds: Dots-And-Cross Diagrams ⚛️ GCSE Chemistry Learning & Revision 5:38
5:38 나중에 재생 나중에 재생 리스트 좋아요 좋아요5:38
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we discuss dot-and-cross diagrams as a method for visualising covalent bonds , which involve the sharing of electron pairs between atoms. Atoms form these bonds to achieve a full outer electron shell , typically containing eight electrons. Single covalent bonds consist of one shared electron pair, as seen in chlorine (Cl₂) and water ( H₂O ), while double and triple covalent bonds involve two and three shared pairs, respectively, with oxygen (O₂) exhibiting a double bond. These multiple bonds are generally stronger and require more energy to break than single bonds. Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
In this episode, we discuss ions, which are charged particles formed when atoms or molecules either gain or lose electrons . The loss of electrons results in positively charged ions , also known as cations , which are commonly formed by metals in Group 1 and 2. Conversely, the gain of electrons produces negatively charged ions , or anions , frequently seen in Group 7 non-metals. These charged particles can consist of a single atom or comprise multiple atoms bonded together with an overall charge. Thus, the presence of an unequal number of protons and electrons defines an ion . Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Chemical Cells & Fuel Cells: Charging of Cells 🔋 GCSE Chemistry Learning & Revision 3:03
3:03 나중에 재생 나중에 재생 리스트 좋아요 좋아요3:03
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we talk about batteries and the charging of cells. Batteries are explained as comprising multiple interconnected cells , with their total voltage being the sum of individual cell voltages. The text distinguishes between non-rechargeable batteries, where irreversible chemical reactions cease energy production upon depletion of reactants and rechargeable batteries. In contrast, rechargeable batteries utilise an external current to reverse electrode reactions , enabling sustained energy output. Therefore, the episode offers a fundamental understanding of battery composition and the core difference between disposable and rechargeable power sources. Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Chemical Cells & Fuel Cells: Changing Voltage Output 🔋 GCSE Chemistry Learning & Revision 4:13
4:13 나중에 재생 나중에 재생 리스트 좋아요 좋아요4:13
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we discuss changing voltage output. A battery's voltage is not a fixed property but can be adjusted through its components. Specifically, altering the materials used for the electrodes impacts the voltage , with more reactive metals creating a higher output. Furthermore, the chemical environment provided by the electrolyte influences the electrode reactions , consequently modifying the cell's voltage. Therefore, both the selection of electrode materials and the electrolyte are key factors in determining the electrical potential of a cell. Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Exothermic & Endothermic Reactions: Reaction Profiles - Chemical Bonds 🔥 GCSE Chemistry Learning & Revision 5:51
5:51 나중에 재생 나중에 재생 리스트 좋아요 좋아요5:51
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we discuss reaction profiles and chemical bonds. Chemical reactions involve the breaking and forming of bonds, with energy changes occurring in the process . Bond breaking requires energy input and is thus endothermic , while bond formation releases energy and is exothermic . The overall energy change of a reaction can be determined by comparing the total energy required to break bonds in the reactants to the total energy released by forming bonds in the products. If more energy is released than consumed , the reaction is exothermic and has a negative energy change. Conversely, if more energy is needed to break bonds than is released by forming them, the reaction is endothermic and has a positive energy change. Calculating this energy difference using bond energies allows us to predict whether a reaction will release or absorb heat . Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Exothermic & Endothermic Reactions: Reaction Profiles Requirements 💥 GCSE Chemistry Learning & Revision 4:54
4:54 나중에 재생 나중에 재생 리스트 좋아요 좋아요4:54
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we will discuss reaction profiles requirements. Successful chemical reactions necessitate collisions between the involved particles. Furthermore, these collisions must occur with a minimum amount of energy , known as the activation energy. Without both physical contact and sufficient kinetic energy during these encounters, a reaction will not proceed effectively. Therefore, both collision and adequate energy are fundamental prerequisites for a chemical transformation to happen. Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Exothermic & Endothermic Reactions: Energy Conservation 🔥 GCSE Chemistry Learning & Revision 5:47
5:47 나중에 재생 나중에 재생 리스트 좋아요 좋아요5:47
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we discuss energy conservation. Chemical reactions involve the transfer and conservation of energy , meaning energy is neither created nor lost. Exothermic reactions release energy into their surroundings, often causing a temperature increase, with examples like combustion and neutralization. Conversely, endothermic reactions absorb energy from their surroundings, leading to a decrease in temperature, as seen in thermal decomposition and the reaction between citric acid and sodium bicarbonate. Therefore, energy exchange is a fundamental aspect of all chemical transformations. Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Electrolysis: Aqueous Solutions and Half Equations 🧪 GCSE Chemistry Learning & Revision 5:03
5:03 나중에 재생 나중에 재생 리스트 좋아요 좋아요5:03
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we will discuss the electrolysis of aqueous solutions and half equations. Predicting products during the electrolysis of aqueous solutions is complex due to water's dissociation into hydrogen and hydroxide ions. At the positive electrode (anode) , either halogens form if halide ions are present, or oxygen gas is produced otherwise. Conversely, at the negative electrode (cathode) , hydrogen gas evolves if the metal is more reactive than hydrogen, while the metal itself deposits if it's less reactive. These electrode reactions can be represented by half-equations , illustrating the oxidation (loss of electrons) at the anode and reduction (gain of electrons) at the cathode, as exemplified by the electrolysis of lead bromide. Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Electrolysis: Metal Extraction ⚡ GCSE Chemistry Learning & Revision 6:44
6:44 나중에 재생 나중에 재생 리스트 좋아요 좋아요6:44
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we discuss using electrolysis to extract reactive metals. Electrolysis is a method employed to extract reactive metals , such as aluminium, from their molten ores because these metals are more reactive than carbon. This process involves passing an electric current through the molten compound , causing the metal ions to be reduced at the cathode, forming the pure metal. At the anode, oxygen typically forms and reacts with the carbon electrode , producing carbon dioxide. While effective for obtaining highly reactive metals , electrolysis is a costly procedure due to the substantial energy required to melt the ore and generate the necessary electrical current. Therefore, although crucial for specific metal extractions, the energy demands represent a significant drawback of this technique. Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Reactions of Acids: Strong and Weak Acids ⚗️ GCSE Chemistry Learning & Revision 4:58
4:58 나중에 재생 나중에 재생 리스트 좋아요 좋아요4:58
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we cover strong and weak acids. This source clarifies the fundamental difference between strong and weak acids in aqueous solutions. It emphasises that acid strength is defined by the degree of ionisation , not concentration. Strong acids undergo complete ionisation , releasing all their hydrogen ions, while weak acids only partially ionise , resulting in fewer hydrogen ions in solution. Examples of common strong acids like hydrochloric, sulfuric, and nitric acid are provided, alongside ethanoic acid as a typical weak acid. It should be noted that the majority of acids are classified as weak. Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Reactions of Acids: Measuring pH ⚗️ GCSE Chemistry Learning & Revision 5:01
5:01 나중에 재생 나중에 재생 리스트 좋아요 좋아요5:01
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we talk about measuring pH. Determining the acidity or alkalinity of a substance, known as measuring pH, can be achieved through different methods. One approach involves using a universal indicator , which displays a spectrum of colours that correlate to specific pH values. Alternatively, a pH probe provides a direct numerical reading of the pH level. Furthermore, natural substances like red cabbage contain compounds such as anthocyanin that behave similarly to litmus paper, changing colour in response to acidic or alkaline environments, thus offering another means of pH indication. Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Reactions of Acids: Required Practical - Separating Mixtures 🧪 GCSE Chemistry Learning & Revision 5:24
5:24 나중에 재생 나중에 재생 리스트 좋아요 좋아요5:24
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we look at the practical procedure for isolating a pure, dry-soluble salt. The process begins with reacting an acid with an insoluble solid, such as an oxide or carbonate. Next, filtration is employed to eliminate any unreacted solid material. The resulting solution, containing the dissolved salt, then undergoes crystallisation, involving gentle heating in a water bath to evaporate water and promote crystal formation. Finally, cooling allows for further crystallisation, yielding the desired pure, dry salt sample. Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Reactions of Acids: Soluble Salts 🧂 GCSE Chemistry Learning & Revision 6:06
6:06 나중에 재생 나중에 재생 리스트 좋아요 좋아요6:06
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we discuss soluble salts, which are compounds capable of dissolving in water. The provided text outlines a method for their creation, specifically through the chemical reaction between acids and insoluble solid substances like metal oxides. An example illustrates this process, showing how copper oxide reacts with sulfuric acid to yield the soluble salt copper sulfate and water. This reaction demonstrates a practical approach to synthesising soluble salts in a laboratory setting. Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Reactions of Acids: Neutralisation of Acids 🧪 GCSE Chemistry Learning & Revision 7:33
7:33 나중에 재생 나중에 재생 리스트 좋아요 좋아요7:33
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we discuss the neutralisation of acids. Neutralisation reactions involving acids are explored in this source, which explains how acids react with different types of bases. Specifically, it outlines the reactions of acids with metal carbonates, metal oxides, and metal hydroxides . For each base type, a general equation is provided alongside a concrete example using hydrochloric acid. These reactions consistently result in the formation of salt and water , with the reaction involving metal carbonates also producing carbon dioxide . Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Reactivity of Metals: Reactions with Water 💥 GCSE Chemistry Learning & Revision 5:11
5:11 나중에 재생 나중에 재생 리스트 좋아요 좋아요5:11
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we discuss the reactions of metals with water. Reactive alkali metals like potassium, sodium, and lithium undergo exothermic reactions when introduced to cold water. These reactions yield a metal hydroxide and hydrogen gas . Potassium exhibits the most energetic reaction, readily igniting the produced hydrogen and the metal itself with a lilac flame. Sodium reacts vigorously, melting into a mobile sphere on the water's surface. Lithium demonstrates the mildest reaction, steadily fizzing and diminishing as it floats. The reactivity of these metals with water follows the order: potassium > sodium > lithium . Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Acids, Alkalis & Redox Reactions: Oxidation & Reduction 🧪 GCSE Chemistry Learning & Revision 3:25
3:25 나중에 재생 나중에 재생 리스트 좋아요 좋아요3:25
나중에 재생 나중에 재생 리스트 좋아요 좋아요This episode clarifies the fundamental concepts of redox reactions, which involve both oxidation and reduction processes . Initially defined by the gain and loss of oxygen , these terms are further explained through the transfer of electrons. Specifically, oxidation is characterised by the loss of electrons, while reduction involves the gain of electrons . A helpful mnemonic, OIL RIG (Oxidation Is Loss, Reduction Is Gain), is introduced as a memory aid for understanding these electron transfers. Therefore, the episode succinctly outlines the dual nature of redox reactions and offers a practical method for remembering the electron movements associated with each half-reaction. Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning
1 Chemical Measurements: Amount of Substance in Relation to Volumes and Gas 🧪 GCSE Chemistry Learning & Revision 3:59
3:59 나중에 재생 나중에 재생 리스트 좋아요 좋아요3:59
나중에 재생 나중에 재생 리스트 좋아요 좋아요In this episode, we discuss the amount of substances in relation to volumes and gas. Under identical temperature and pressure , equal quantities of different gases, measured in moles, occupy the same volume . Specifically, one mole of any gas occupies 24 dm³ at standard room temperature (20°C) and pressure (1 atm). This principle allows for the calculation of gas volumes in chemical reactions using balanced equations and the known volume of one gaseous reactant or product. Therefore, understanding the amount of substance (in moles) provides a direct link to predicting gas volumes in various chemical processes. Don't miss out on subscribing for more educational content tailored to help you succeed in your exams. Perfect for AQA, OCR, Edexcel, CIE and WJEC exam boards. Click here to see all of our GCSE Chemistry content!…
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REVISE GCSE Chemistry - A podcast by Seneca Learning와 비슷한 콘텐츠
AnthroPod is produced by the Society for Cultural Anthropology. In each episode, we explore what anthropology teaches us about the world and people around us.
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An award-winning cannabis podcast for women, by women. Hear joyful stories and useful advice about cannabis for health, well-being, and fun—especially for needs specific to women like stress, sleep, and sex. We cover everything from: What’s the best weed for sex? Can I use CBD for menstrual cramps? What are the effects of the Harlequin strain or Gelato strain? And, why do we prefer to call it “cannabis” instead of “marijuana”? We also hear from you: your first time buying legal weed, and how ...
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Everyone has a dream. But sometimes there’s a gap between where we are and where we want to be. True, there are some people who can bridge that gap easily, on their own, but all of us need a little help at some point. A little boost. An accountability partner. A Snooze Squad. In each episode, the Snooze Squad will strategize an action plan for people to face their fears. Guests will transform their own perception of their potential and walk away a few inches closer to who they want to become ...
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Interviews with mathematics education researchers about recent studies. Hosted by Samuel Otten, University of Missouri. www.mathedpodcast.com Produced by Fibre Studios
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Are you looking for more happiness, success and vitality in your life? Get inspired each week with wellness and performance expert, Integrative Medicine Fellow, author & keynote speaker, Kristel Bauer. Live Greatly shares empowering conversations and insights about happiness, wellness & success to support your personal and professional development. Kristel talks with top experts, leaders and inspiring individuals to help you embrace a growth mindset and excel in your work/life. Kristel then ...
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A science guy from the deep south (Destin) and a humanities guy from the wild west (Matt Whitman) discuss deep questions with varying levels of maturity.
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Españolistos | Learn Spanish With Fun Conversations!
Españolistos | Learn Spanish With Fun Conversations!
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Españolistos is a Spanish language learning Podcast spoken in clear Latin American Spanish geared towards intermediate to advanced language learners. The conversations are 99% in Spanish so you can focus on your listening comprehension. The topics are fun and interesting, sometimes controversial, and always educational. We believe that discussing deep and meaningful topics will increase your vocabulary as you learn new and practical words for everyday living. Andrea (Colombian Spanish Teache ...
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Every Day Is Saturday Podcast For Motivation, Inspiration And Success
Self Improvement Coach Sam Crowley
1k900
One of the top motivational podcasts for 18 years and running. Motivational messages to keep you inspired throughout the week. Success comes in all shapes and sizes. Sam Crowley’s authentic message will provide the inspiration you need to conquer the challenges and claim your power.
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(Apple's Best of 2018) In-depth conversations with people at the top of their game. Jordan Harbinger unpacks guests' wisdom into practical nuggets you can use to impact your work, life, and relationships. Learn from leaders (Ray Dalio, Simon Sinek, Mark Cuban), entertainers (Moby, Tip "T.I." Harris, Dennis Quaid), scientists (Neil deGrasse Tyson, Bill Nye), athletes (Kobe Bryant, Dennis Rodman, Tony Hawk) and an eclectic array of fascinating minds, from art forgers and arms traffickers to sp ...
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BackStory is a weekly public podcast hosted by U.S. historians Ed Ayers, Brian Balogh, Nathan Connolly and Joanne Freeman. We're based in Charlottesville, Va. at Virginia Humanities. There’s the history you had to learn, and the history you want to learn - that’s where BackStory comes in. Each week BackStory takes a topic that people are talking about and explores it through the lens of American history. Through stories, interviews, and conversations with our listeners, BackStory makes histo ...
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