Now as you start to learn about chemistry, you may ask yourself, what exactly is chemistry? Well, chemistry is the study of matter, its nature, properties, and the changes it undergoes. When I say the term matter, that's just anything that occupies space because it has volume and mass. And when it comes to chemistry, it serves as a central science and foundation that links together other scientific disciplines. So when you click on the next video, you'll see how chemistry plays a central role in our understanding of other types of sciences.
- 1. Matter and Measurements4h 29m
- What is Chemistry?5m
- The Scientific Method9m
- Classification of Matter16m
- States of Matter8m
- Physical & Chemical Changes19m
- Chemical Properties8m
- Physical Properties5m
- Intensive vs. Extensive Properties13m
- Temperature (Simplified)9m
- Scientific Notation13m
- SI Units (Simplified)5m
- Metric Prefixes24m
- Significant Figures (Simplified)11m
- Significant Figures: Precision in Measurements7m
- Significant Figures: In Calculations19m
- Conversion Factors (Simplified)15m
- Dimensional Analysis22m
- Density12m
- Specific Gravity9m
- Density of Geometric Objects19m
- Density of Non-Geometric Objects9m
- 2. Atoms and the Periodic Table5h 23m
- The Atom (Simplified)9m
- Subatomic Particles (Simplified)12m
- Isotopes17m
- Ions (Simplified)22m
- Atomic Mass (Simplified)17m
- Atomic Mass (Conceptual)12m
- Periodic Table: Element Symbols6m
- Periodic Table: Classifications11m
- Periodic Table: Group Names8m
- Periodic Table: Representative Elements & Transition Metals7m
- Periodic Table: Elemental Forms (Simplified)6m
- Periodic Table: Phases (Simplified)8m
- Law of Definite Proportions9m
- Atomic Theory9m
- Rutherford Gold Foil Experiment9m
- Wavelength and Frequency (Simplified)5m
- Electromagnetic Spectrum (Simplified)11m
- Bohr Model (Simplified)9m
- Emission Spectrum (Simplified)3m
- Electronic Structure4m
- Electronic Structure: Shells5m
- Electronic Structure: Subshells4m
- Electronic Structure: Orbitals11m
- Electronic Structure: Electron Spin3m
- Electronic Structure: Number of Electrons4m
- The Electron Configuration (Simplified)22m
- Electron Arrangements5m
- The Electron Configuration: Condensed4m
- The Electron Configuration: Exceptions (Simplified)12m
- Ions and the Octet Rule9m
- Ions and the Octet Rule (Simplified)8m
- Valence Electrons of Elements (Simplified)5m
- Lewis Dot Symbols (Simplified)7m
- Periodic Trend: Metallic Character4m
- Periodic Trend: Atomic Radius (Simplified)7m
- 3. Ionic Compounds2h 18m
- Periodic Table: Main Group Element Charges12m
- Periodic Table: Transition Metal Charges6m
- Periodic Trend: Ionic Radius (Simplified)5m
- Periodic Trend: Ranking Ionic Radii8m
- Periodic Trend: Ionization Energy (Simplified)9m
- Periodic Trend: Electron Affinity (Simplified)8m
- Ionic Bonding6m
- Naming Monoatomic Cations6m
- Naming Monoatomic Anions5m
- Polyatomic Ions25m
- Naming Ionic Compounds11m
- Writing Formula Units of Ionic Compounds7m
- Naming Ionic Hydrates6m
- Naming Acids18m
- 4. Molecular Compounds2h 18m
- Covalent Bonds6m
- Naming Binary Molecular Compounds6m
- Molecular Models4m
- Bonding Preferences6m
- Lewis Dot Structures: Neutral Compounds (Simplified)8m
- Multiple Bonds4m
- Multiple Bonds (Simplified)6m
- Lewis Dot Structures: Multiple Bonds10m
- Lewis Dot Structures: Ions (Simplified)8m
- Lewis Dot Structures: Exceptions (Simplified)12m
- Resonance Structures (Simplified)5m
- Valence Shell Electron Pair Repulsion Theory (Simplified)4m
- Electron Geometry (Simplified)8m
- Molecular Geometry (Simplified)11m
- Bond Angles (Simplified)11m
- Dipole Moment (Simplified)15m
- Molecular Polarity (Simplified)7m
- 5. Classification & Balancing of Chemical Reactions3h 17m
- Chemical Reaction: Chemical Change5m
- Law of Conservation of Mass5m
- Balancing Chemical Equations (Simplified)13m
- Solubility Rules16m
- Molecular Equations18m
- Types of Chemical Reactions12m
- Complete Ionic Equations18m
- Calculate Oxidation Numbers15m
- Redox Reactions17m
- Spontaneous Redox Reactions8m
- Balancing Redox Reactions: Acidic Solutions17m
- Balancing Redox Reactions: Basic Solutions17m
- Balancing Redox Reactions (Simplified)13m
- Galvanic Cell (Simplified)16m
- 6. Chemical Reactions & Quantities2h 35m
- 7. Energy, Rate and Equilibrium3h 46m
- Nature of Energy6m
- First Law of Thermodynamics7m
- Endothermic & Exothermic Reactions7m
- Bond Energy14m
- Thermochemical Equations12m
- Heat Capacity19m
- Thermal Equilibrium (Simplified)8m
- Hess's Law23m
- Rate of Reaction11m
- Energy Diagrams12m
- Chemical Equilibrium7m
- The Equilibrium Constant14m
- Le Chatelier's Principle23m
- Solubility Product Constant (Ksp)17m
- Spontaneous Reaction10m
- Entropy (Simplified)9m
- Gibbs Free Energy (Simplified)18m
- 8. Gases, Liquids and Solids3h 25m
- Pressure Units6m
- Kinetic Molecular Theory14m
- The Ideal Gas Law18m
- The Ideal Gas Law Derivations13m
- The Ideal Gas Law Applications6m
- Chemistry Gas Laws16m
- Chemistry Gas Laws: Combined Gas Law12m
- Standard Temperature and Pressure14m
- Dalton's Law: Partial Pressure (Simplified)13m
- Gas Stoichiometry18m
- Intermolecular Forces (Simplified)19m
- Intermolecular Forces and Physical Properties11m
- Atomic, Ionic and Molecular Solids10m
- Heating and Cooling Curves30m
- 9. Solutions4h 10m
- Solutions6m
- Solubility and Intermolecular Forces18m
- Solutions: Mass Percent6m
- Percent Concentrations10m
- Molarity18m
- Osmolarity15m
- Parts per Million (ppm)13m
- Solubility: Temperature Effect8m
- Intro to Henry's Law4m
- Henry's Law Calculations12m
- Dilutions12m
- Solution Stoichiometry14m
- Electrolytes (Simplified)13m
- Equivalents11m
- Molality15m
- The Colligative Properties15m
- Boiling Point Elevation16m
- Freezing Point Depression9m
- Osmosis16m
- Osmotic Pressure9m
- 10. Acids and Bases3h 29m
- Acid-Base Introduction11m
- Arrhenius Acid and Base6m
- Bronsted Lowry Acid and Base18m
- Acid and Base Strength17m
- Ka and Kb12m
- The pH Scale19m
- Auto-Ionization9m
- pH of Strong Acids and Bases9m
- Acid-Base Equivalents14m
- Acid-Base Reactions7m
- Gas Evolution Equations (Simplified)6m
- Ionic Salts (Simplified)23m
- Buffers25m
- Henderson-Hasselbalch Equation16m
- Strong Acid Strong Base Titrations (Simplified)10m
- 11. Nuclear Chemistry56m
- BONUS: Lab Techniques and Procedures1h 38m
- BONUS: Mathematical Operations and Functions47m
- 12. Introduction to Organic Chemistry1h 34m
- 13. Alkenes, Alkynes, and Aromatic Compounds2h 12m
- 14. Compounds with Oxygen or Sulfur1h 6m
- 15. Aldehydes and Ketones1h 1m
- 16. Carboxylic Acids and Their Derivatives1h 11m
- 17. Amines38m
- 18. Amino Acids and Proteins1h 51m
- 19. Enzymes1h 37m
- 20. Carbohydrates1h 46m
- Intro to Carbohydrates4m
- Classification of Carbohydrates4m
- Fischer Projections4m
- Enantiomers vs Diastereomers8m
- D vs L Enantiomers8m
- Cyclic Hemiacetals8m
- Intro to Haworth Projections4m
- Cyclic Structures of Monosaccharides11m
- Mutarotation4m
- Reduction of Monosaccharides10m
- Oxidation of Monosaccharides7m
- Glycosidic Linkage14m
- Disaccharides7m
- Polysaccharides7m
- 21. The Generation of Biochemical Energy2h 8m
- 22. Carbohydrate Metabolism2h 22m
- 23. Lipids2h 26m
- Intro to Lipids6m
- Fatty Acids25m
- Physical Properties of Fatty Acids6m
- Waxes4m
- Triacylglycerols12m
- Triacylglycerol Reactions: Hydrogenation8m
- Triacylglycerol Reactions: Hydrolysis13m
- Triacylglycerol Reactions: Oxidation7m
- Glycerophospholipids15m
- Sphingomyelins13m
- Steroids15m
- Cell Membranes7m
- Membrane Transport10m
- 24. Lipid Metabolism1h 45m
- 25. Protein and Amino Acid Metabolism1h 37m
- 26. Nucleic Acids and Protein Synthesis2h 54m
- Intro to Nucleic Acids4m
- Nitrogenous Bases16m
- Nucleoside and Nucleotide Formation9m
- Naming Nucleosides and Nucleotides13m
- Phosphodiester Bond Formation7m
- Primary Structure of Nucleic Acids11m
- Base Pairing10m
- DNA Double Helix6m
- Intro to DNA Replication20m
- Steps of DNA Replication11m
- Types of RNA10m
- Overview of Protein Synthesis4m
- Transcription: mRNA Synthesis9m
- Processing of pre-mRNA5m
- The Genetic Code6m
- Introduction to Translation7m
- Translation: Protein Synthesis18m
What is Chemistry? - Online Tutor, Practice Problems & Exam Prep
Chemistry is the science that deals with the composition, structural arrangement and properties of substances.
Understanding Chemistry
What is Chemistry? Concept 1
Video transcript
What is Chemistry? Concept 2
Video transcript
As I stated in the last video, chemistry serves as the central science that links together other scientific disciplines. So if we take a look here, we have chemistry in the center. From it, we can see that it's connected to all these other types of subjects. Each one of these subjects has an umbrella scientific discipline connected to it. So, for example, in the first one, we have anatomy, physiology, and genetics. This is under the umbrella of biology. So there's a direct connection between chemistry and biology, and biology and chemistry both ways. Biology is also connected to these other disciplines. We could think of the chemistry itself serving as the sun and all of these scientific disciplines, the planets that orbit it. They're connected to one another because they're part of the same solar system, and they're all connected to the Sun because they orbit the Sun. Alright.
So for the next one, we're going to go around this. We have molecular biology, immunology, endocrinology, and genetic engineering. This is all under biochemistry. So biology and chemistry mixed together. Next, we have here, pharmacology, nutrition, clinical chemistry, and radiology. This is actually part of medicine and allied health sciences. Here we have radiochemistry, body imaging, and nuclear chemistry. This is because nuclear medicine, which is part of nuclear chemistry. Alright. Coming over, we have quantum mechanics, spectroscopy, material science, and biomechanics. This one is a little bit off from the other ones because it's so heavily math-based. This is our friend, Physics. Next, we have our Physical Sciences, which is part of Geology. Then we have ecology and pollution studies, so this is part of our environmental sciences. Then here, moving up, we have botany and agronomy. We're talking about agriculture here, so this would be our let's see, plant sciences. So these would represent our different types of scientific disciplines, which orbit our central science of chemistry. Now, of course, if you consult one of these other scientific disciplines that people majoring in them, they'll say, no, they're the major part and everything branches off of them. So just realize at the end of the day, they're all connected to one another.
What is Chemistry? Example 1
Video transcript
So just a name for the science that studies the motor functions and responses of the Venus flytrap. Here, if we take a look at our options, we have biochemistry, physics, plant sciences, and health sciences. Well, we know that the Venus flytrap is one of those pretty famous types of plants. We might have seen images of it basically devouring insects, spiders, even frogs depending on the size of the Venus flytrap itself. Because it's a famous type of plant, it would make sense that it would fall under plant sciences. That means option c is our correct answer.
Suggest a name for the science that studies the physics of rocks and the earth.
Do you want more practice?
Here’s what students ask on this topic:
What is chemistry and why is it considered the central science?
Chemistry is the study of matter, its properties, and the changes it undergoes. It is considered the central science because it connects various scientific disciplines such as biology, medicine, physics, and environmental sciences. This interconnectedness allows for a comprehensive understanding of complex systems. For example, biochemistry links chemistry and biology, while physical chemistry connects chemistry and physics. Understanding chemistry provides a foundation for exploring other scientific fields, making it essential for a holistic scientific education.
How does chemistry relate to biology?
Chemistry and biology are closely related through the field of biochemistry, which studies the chemical processes within and related to living organisms. For instance, understanding the structure and function of DNA, proteins, and enzymes requires knowledge of chemical principles. Additionally, metabolic pathways, cellular respiration, and photosynthesis are all biochemical processes. This relationship highlights how chemical reactions underpin biological functions, making chemistry fundamental to understanding biological systems.
What are some key concepts in chemistry that are essential for understanding other sciences?
Key concepts in chemistry essential for understanding other sciences include the acid-base indicator, activation energy (Eact), and the role of enzymes in reactions. The acid-base indicator helps in determining the pH of solutions, crucial in both biological and environmental sciences. Activation energy is the minimum energy required for a chemical reaction to occur, important in fields like pharmacology and biochemistry. Enzymes, which are biological catalysts, play a vital role in speeding up biochemical reactions, essential for life processes.
How does chemistry contribute to the field of medicine?
Chemistry contributes to medicine through pharmacology, clinical chemistry, and radiology. Pharmacology involves the study of drugs and their effects on the human body, requiring an understanding of chemical interactions. Clinical chemistry focuses on analyzing bodily fluids for diagnostic purposes, such as blood tests. Radiology uses radioactive substances for imaging and treatment, relying on principles of nuclear chemistry. These applications demonstrate how chemistry is integral to medical advancements and patient care.
What role does chemistry play in environmental sciences?
Chemistry plays a crucial role in environmental sciences by studying the chemical composition of natural resources and the impact of pollutants. It helps in understanding processes like the carbon cycle, water purification, and soil chemistry. Environmental chemistry also involves analyzing pollutants and developing methods to mitigate their effects. This knowledge is essential for addressing environmental issues such as climate change, pollution, and sustainable resource management.
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