MCAT Basics (from MedSchoolCoach)
This podcast addresses translational motion. First, vectors are covered. Then, the variables of acceleration, velocity, and position are discussed. Next, the host discusses the relationship between those three variables. Finally, it covers free fall, projectile motion, air resistance, and friction. The example link for this segment is provided here: Visit for more help with the MCAT. Jump into the conversation: [00:00] MCAT Tutoring from MedSchoolCoach [00:34] Welcome to MCAT Basics [01:06] Topics covered in this episode [01:57] What is translational motion [04:08] Vectors...
info_outline Cell OrganellesMCAT Basics (from MedSchoolCoach)
This podcast explores cell organelles, organized into five categories: organelles found in all cells, eukaryotic cells, plant and bacterial cells, human and bacterial cells, human cells only, and plant cells only. The organelles discussed include ribosomes, vacuoles, cytoskeleton, plasma membrane, peroxisome, proteasome, nucleus, nucleolus, smooth and rough endoplasmic reticulum, Golgi apparatus, lysosome, cell wall, flagella, mitochondria, melanosome, and chloroplasts. Visit for more help with the MCAT. Jump into the conversation: [00:00] MCAT Tutoring from MedSchoolCoach [00:34]...
info_outline Kinetics and SolubilityMCAT Basics (from MedSchoolCoach)
This podcast discusses chemical kinetics and solubility. It begins with an exploration of kinetics, including the general concept, collision theory, rate laws, and the Arrhenius equation. Next, it delves into solubility, covering the general concept, solubility product (Ksp), the common ion effect, selective precipitation, and Henry’s law. Visit for more help with the MCAT. Jump into the conversation: [00:00] MCAT Tutoring from MedSchoolCoach [00:34] Welcome to MCAT Basics [01:06] Topics covered in this episode [02:37] What is general kinetics [08:53] Collision Theory [11:08] Rate...
info_outline Physiology and Perception of the EyeMCAT Basics (from MedSchoolCoach)
This podcast focuses on the eye. It begins with a brief overview of the eye's anatomy and physiology. The discussion then shifts to rods, cones, and the phototransduction pathway. The final section addresses perception. Key topics include visual field processing, differences between binocular and monocular cues, and feature detection (covering both Magno and Parvo pathways). Visit for more help with the MCAT. Jump into the conversation: [00:00] MCAT Tutoring from MedSchoolCoach [00:34] Welcome to MCAT Basics [01:06] Topics covered in this episode [02:10] Anatomy & physiology...
info_outline Adaptive Immune SystemMCAT Basics (from MedSchoolCoach)
To continue our discussion on the immune system, in this episode, we will cover the second type of immune system – the adaptive immune system. We start with covering some vocabulary that you’ll need to know to understand the immune system, then we move into the cells that make up the adaptive immune system. Then we break down the two branches of the adaptive immune system - humoral immunity including the discussion of B cells and cell-mediated immunity highlighting T cells. Don’t miss our previous episode on the other type of immune system, the innate...
info_outline Innate Immune SystemMCAT Basics (from MedSchoolCoach)
The immune system is split up into two main categories - the adaptive immune system and the innate immune system. This episode will cover the intricacies of the innate immune system beginning with an overview of its constituent cells. We will then explore three pivotal elements of the system: anatomical barriers, the general inflammatory response, and the complement system. This will show up in the bio/biochem section of the MCAT. For additional reading on this topic, you can refer to the . Visit for more help with the MCAT. Jump into the conversation: [00:00] MCAT Tutoring from...
info_outline Separation and Purification TechniquesMCAT Basics (from MedSchoolCoach)
This episode of MCAT Basics covers several separation and purification techniques you may see on the MCAT. We’ll cover these techniques in three distinct categories: small molecules, proteins, and cells. Within the small molecule category, we’ll discuss extraction, crystallization and recrystallization, and chromatography (TLC and HPLC). For proteins, we cover SDS-page, precipitation, soelectric focusing, and chromatography variations. Lastly, we’ll explain, within the world of cells, centrifugation, flow cytometry, and microfluidics. Visit for more help with the...
info_outline Circuit Variables & ElementsMCAT Basics (from MedSchoolCoach)
This episode of MCAT Basics covers the world of circuits. We will explore electrical circuits and their fundamental principles. We’ll start with dissecting the essential parameters that form the backbone of circuits: voltage, current, resistance, and power. These are the building blocks upon which all circuit dynamics are based. Next, we'll explore a variety of circuit elements, from resistors to batteries, capacitors, and switches. Each of these components plays a vital role in shaping the behavior of circuits and understanding their functionality. Finally, we'll delve into Ohm’s Law and...
info_outline DNA Replication and Central DogmaMCAT Basics (from MedSchoolCoach)
DNA replication and the central dogma are fundamental concepts in molecular biology, and breaking down the different replication methods and the processes of transcription and translation is crucial for understanding how genetic information is expressed and passed on in cells. In the first part of our episode, we'll break down DNA replication, exploring the concepts of conservative, semi-conservative, and dispersive replication, unraveling the mechanisms that drive this fundamental process. Later, we'll focus on transcription and translation, delving into the nuances between prokaryotic and...
info_outline ThermodynamicsMCAT Basics (from MedSchoolCoach)
This podcast covers thermodynamics. First, I discuss the four laws of thermodynamics, as well as their application on the MCAT. Then, I break down enthalpy, Gibbs free energy, and entropy (briefly). Lastly, I cover the three types of heat transfer: conduction, convection, and radiation. CORRECTION: First Law of Thermodynamics is U =Q - W, I said 'U = Q + W'. For U = Q - W, W (work) is defined as work done BY the system on its surroundings. Please email me if you have any comments or concerns: To learn more about how MedSchoolCoach can help you along your medical school journey, visit us...
info_outlineThis podcast covers topics within electromagnetism. First, I will talk about charge and electric fields. This will include discussions on static charge, the amber effect, and electric potential. Then, I will introduce magnetism. I will discuss the concept of magnetism, force applied by a magnetic field, the right hand rule, and the magnetic characterization of different materials.
*Corrections*:
- Electrostatic force is INVERSELY proportional to the distance between charges squared
- Amperes = Coulombs/Second
- I say that magnetic field lines travel in the same direction that Santa goes when he is done delivering presents. This assumes he lives on the South Pole. (i.e. he goes north to south when he is done delivering presents)
Please email me if you have any comments or concerns: [email protected]
To learn more about how MedSchoolCoach can help you along your medical school journey, visit us at Prospective Doctor.
Thanks for listening!