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Physics
PHYS 218
Introduction to Scalars and Vectors Calculating average velocity Solving for time Displacement from time and velocity example Acceleration Airbus A380 take off time Airbus A380 take off distance Why distance is area under v-t line Average velocity for constant acceleration Acceleration of aircraft carrier takeoff Deriving displacement as a function of time, acceleration, and initial velocity Projectile height given time Deriving max projectile displacement given time Impact velocity from given height Projectile motion (part 1) Projectile motion (part 3) Projectile motion (part 5) CVEN 363 Acceleration PHYS 218
Newton's first law of motion Newton's first law of motion concepts Newton's first law of motion Newton's second law of motion Newton's third law of motion Normal force and contact force Normal force in an elevator Balanced and unbalanced forces Unbalanced forces and motion Slow sock on Lubricon VI Normal forces on Lubricon VI Inclined plan force components Ice accelerating down an incline Force of friction keeping the block stationary Force of friction keeping velocity constant Intuition on static and kinetic friction comparisons Static and kinetic friction example Intro to tension Intro to tension part 2 Tension in accelerating system and pie in the face CVEN 363
Intro to harmonic motion CVEN 311
Fluids Part 1 Fluids Part 2 Fluids Part 3 Fluids Part 4 Fluids Part 5 Fluids Part 6 Fluids Part 7 Fluids Part 8 Fluids Part 9 Fluids Part 10 Fluids Part 11 Fluids Part 12 MEEN 315
Thermodynamics part 1 Thermodynamics part 2 Thermodynamics part 3 Macrostates and microstates Quasistatic and reversible processes 1st law of thermodynamics/internal energy More on internal energy Work from expanding P-v diagrams and expansion work Work done by isothermic process Carnot engine and cycle Thermodynamic entropy definition clarification Efficiency of a carnot engine Carnot efficiency 2: Reversing the cycle Carnot efficiency 3: Proving that it is the most efficient Enthalpy Heat of formation Gibbs free energy and sponteity Gibbs free energy and sponteity example |
PHYS 218
Visualizing vectors in 2 dimensions Projectile at an angle Different way to determine time in air Launching and landing on different elevations Total displacement for projectile Projectile on an incline Unit vectors and engineering notation Unit vector notation Unit vector notation (part 2) Projectile motion with ordered set notation Optimal angle for projectile part 1 Optimal angle for projectile part 2: Hangtime Optimal angle for projectile part 3: Horizontal distance as fucntion of time Optimal angle for projectile part 4: Finding optimal angle PHYS 218
Intro to work and energy Work and energy part 2 Conservation of energy Work/energy problem with friction Intro to springs and hooke's law Potential energy stored in a spring PHYS 218, CVEN 363
Intro to momentum Momentum: ice skater throws a ball 2-D momentum problem 2-D momentum problem part 2 PHYS 218, CVEN 363
Center of mass Intro to torque Moments Moments part 2 Relationship between angular velocity and speed Conservation of angular momentum CVEN 345 Moments Moments part 2 CVEN 363
Harmonic motion part 2 (calculus) Harmonic motion part 3 (no calculus) PHYS 208
Intro to charge and couloumbs law electrostatics part 2 Electric potential energy Electric potential energy part 2 involves calculus Voltage Capacitance Circuits part 1 Circuits part 2 Circuits part 3 Circuits part 4 Cross product 1 Cross product 2 Cross product and torque Intro to magnestism Magnestism 2 Magnestism 3 Magnestism 4 Magnestism 5 Magnestism 6: field due to current Magnetism 7 Magnetism 8 Magnetism 9: Electric motors Magnestism 12: Induced current in a wire The dot product Dot vs cross product Calculating dot and cross products with unit vector notation PHYS 208
Introduction to waves Ampltiude, period, frequency, and wavelength of periodic waves |
Chemistry
CHEM 107/117, CVEN 306
Elements and Atoms Introduction to the Atom CHEM 107/117
Groups of the Periodic table valence electrons periodic trends: ionization energy Other periodic table trends Ionic, Covalent and Metallic bonds CVEN 306 valence electrons CVEN 365 Other periodic table trends MEEN 320, CHEM 107/117
Ideal Gas Equation Ideal Gas Equation Example Ideal Gas Equation Example 2 ideal Gas equation example 3 Ideal gas equation example 4 Vapor pressure example CVEN 311 Ideal Gas Equation CHEM 107/117
Introduction to Kinetics Reactions in equilibrium Le Chateliers principle heterogeneous Equilibrium Introduction to pH, pOH, and pKw CVEN 413 Introduction to Kinetics Reactions in equilibrium heterogeneous Equilibrium CHEM 107/117
Acid base introduction pH, pOH of strong acids and bases pH of a weak acid pH of a weak base Conjugate acids and bases pKa and pKb relationship Buffers and Hendersen-Hasselbalch Strong Acid Titration Weak Acid Titration Half Equivalence point Titration round up Acid Base Titration |
CHEM 107/117, CVEN 306
Orbitals Valance Electrons More about orbitals and electron configuration Electron configurations Electron configurations 2 CHEM 107/117
Molecular and Empirical formulas The mole and Avogadro's number formula from mass composition another mass composition problem Balancing chemical equations Stoichiometry Stoichiometry example problem 1 stoichiometry: Limiting reagent limiting reactant example problem 1 stoichiometry example problem 2 spectrophotometry introduction spectrophotometry example ATMO 363 Molecular and Empirical formulas Balancing chemical equations Stoichiometry CVEN 306 Molecular and Empirical formulas CHEM 107/117
States of matter state of matter follow up specific heat, heat of fusion and vaporization chilling water problem phase diagrams Van der Waals forces covalent networks and ionic crystals Vapor Pressure Suspension, colloids and solution Solubility Boiling point elevation and freezing point depression change state example CVEN 306 States of matter state of matter follow up phase diagrams Van der Waals forces covalent networks and ionic crystals change state example MEEN 320 phase diagrams |
Biology
BESC 201, BIOL 113, BIOL 206, RENR 205, RENR 375
Introduction to Evolution and Natural Selection Evolution Clarification Natural Selection and The Owl Butterfly DNA Variation in a species BIOL 206
Viruses RENR 205 Human Prehistory 101: prologue Human Prehistory 101 part 1: out of (eastern) Africa Human Prehistory 101 part 2: weathering the storm Human Prehistory 101 part 3: Agriculture rocks our world Human prehistory 101: epilogue BIOL 113
Introduction to Cellular Respiration Glycolysis ATP: Adenosine Triphosphate Krebs/Citric acid cycle Electron Transport Chain |
BIOL 113, CVEN 301, CVEN 306
Diffusion and Osmosis BIOL 113. BIOL 206 Nuclei, Membranes, Ribosomes, Eukaryotes and prokaryotes Endoplasmic Reticulum and Golgi bodies Organelle Overview Chromosomes, Chromatids, Chromatin, etc. Mitosis, Meiosis and Sexual Reproduction Phases of mitosis Phases of meiosis Embryonic Stem Cells Cancer BIOL 113
ATP: Adenosine Triphosphate Photosynthesis Photosynthesis: Light Reaction 1 Photosynthesis: light reactions and phosphosphorylation Photosynthesis: Calvin Cycle Photorespiration |
For further information, please contact Dr. Kelly Brumbelow, Civil Engineering Undergraduate Student Services Office ([email protected])