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Articles 1 - 30 of 124
Full-Text Articles in Physical Sciences and Mathematics
Drug-Excipient Interactions, Maria Ballester
Drug-Excipient Interactions, Maria Ballester
Biophysical Chemistry Laboratory Manual
No abstract provided.
Bomb Calorimeter, Maria Ballester, Arthur Sikora
Bomb Calorimeter, Maria Ballester, Arthur Sikora
Biophysical Chemistry Laboratory Manual
The purpose of this laboratory is to determine the heat of combustion of a sample of sugar and artificial sweeteners by using an IKA Bomb Calorimeter (C200si).
Formation Of Iron(Iii) Thiocyanate - Stopped Flow, Maria Ballester, Victor Castro
Formation Of Iron(Iii) Thiocyanate - Stopped Flow, Maria Ballester, Victor Castro
Biophysical Chemistry Laboratory Manual
The purpose of this laboratory is to determine the equilibrium constant and the forward and reverse rate constants for the formation of Iron(III) Thiocyanate.
Calculating Avogadro's Number, Maria Ballester, Victor Castro Ph.D.
Calculating Avogadro's Number, Maria Ballester, Victor Castro Ph.D.
Biophysical Chemistry Laboratory Manual
The value of Avogadro's number is found by using kinetic theory along with (a) the volume change upon sublimation of a small quantity of dry ice (CO2), and (b) the diffusion length, as a function of time, of iodine in air at a certain temperature.
Apparent Dissociation Constant Of A Porphyrin, Maria Ballester, Victor Castro
Apparent Dissociation Constant Of A Porphyrin, Maria Ballester, Victor Castro
Biophysical Chemistry Laboratory Manual
The purpose of this laboratory is to determine the apparent acid dissociation constant, 𝐾a, by estimating the p𝐾a value of a porphyrin using visible spectrophotometry. This apparent p𝐾a value is measured by graphic interpolating the absorbance changes obtained at varied wavelengths for different acid concentrations using the Henderson–Hasselbach equation.
Introduction To 2-D Plots With Excel, Maria Ballester, Victor Castro Ph.D.
Introduction To 2-D Plots With Excel, Maria Ballester, Victor Castro Ph.D.
Biophysical Chemistry Laboratory Manual
No abstract provided.
Experiment 2.05: Wheatstone Bridge, Diego Castano
Experiment 2.05: Wheatstone Bridge, Diego Castano
Physics Lab Experiments with Simulated Data for Remote Delivery
The Wheatstone Bridge is used to determine the resistances of five resistors.
Experiment 2.04: Kirchhoff’S Laws, Diego Castano, Andrew Kiene
Experiment 2.04: Kirchhoff’S Laws, Diego Castano, Andrew Kiene
Physics Lab Experiments with Simulated Data for Remote Delivery
A non-trivial resistor arrangement is analyzed
Experiment 2.06: Series Rc Dc-Circuit, Diego Castano, Victor Castro
Experiment 2.06: Series Rc Dc-Circuit, Diego Castano, Victor Castro
Physics Lab Experiments with Simulated Data for Remote Delivery
The capacitances of two unknown capacitors are determined examining their charging behavior.
Experiment 2.02: Electric And Potential Fields, Diego Castano
Experiment 2.02: Electric And Potential Fields, Diego Castano
Physics Lab Experiments with Simulated Data for Remote Delivery
Electric field line maps for three 2-dimensional charge distributions are determined using a voltmeter.
Experiment 2.03: Ohm’S Law, Diego Castano, Victor Castro
Experiment 2.03: Ohm’S Law, Diego Castano, Victor Castro
Physics Lab Experiments with Simulated Data for Remote Delivery
The resistances of three resistors are determined by varying the applied voltage and measuring the resulting current.
Experiment 2.01: Coulomb’S Law, Diego Castano
Experiment 2.01: Coulomb’S Law, Diego Castano
Physics Lab Experiments with Simulated Data for Remote Delivery
The charge resulting from the static electrification of a Teflon plate is determined through its interaction with a neutral conducting sphere.
Experiment 2.09: Reflection And Refraction, Diego Castano, Victor Castro
Experiment 2.09: Reflection And Refraction, Diego Castano, Victor Castro
Physics Lab Experiments with Simulated Data for Remote Delivery
The laws of geometrical optics are studied by tracking light rays refracting across an air-glass boundary and reflecting off convex and concave mirrors.
Experiment 2.08: Series Rlc Ac-Circuit, Diego Castano, Victor Castro
Experiment 2.08: Series Rlc Ac-Circuit, Diego Castano, Victor Castro
Physics Lab Experiments with Simulated Data for Remote Delivery
Using the resonant behavior of a circuit consisting of a coil and known capacitor, the coil’s self-inductance and resistance are determined.
Experiment 2.07: Magnetic Field Of The Earth, Diego Castano, Victor Castro
Experiment 2.07: Magnetic Field Of The Earth, Diego Castano, Victor Castro
Physics Lab Experiments with Simulated Data for Remote Delivery
The earth’s horizontal component of magnetic field is determined using a tangent galvanometer.
Experiment 2.10: Lenses, Diego Castano, Victor Castro
Experiment 2.10: Lenses, Diego Castano, Victor Castro
Physics Lab Experiments with Simulated Data for Remote Delivery
The focal lengths of converging and diverging lenses are determined.
Experiment 1.02: Acceleration Due To Gravity: Vertical Drop, Diego Castano
Experiment 1.02: Acceleration Due To Gravity: Vertical Drop, Diego Castano
Physics Lab Experiments with Simulated Data for Remote Delivery
The acceleration due to gravity is determined from the fall of a metal sphere.
Experiment 1.04: Newton's 2nd Law, Diego Castano
Experiment 1.04: Newton's 2nd Law, Diego Castano
Physics Lab Experiments with Simulated Data for Remote Delivery
The motion of a modified Atwood-type machine is studied.
Experiment 1.07: Torque, Diego Castano
Experiment 1.07: Torque, Diego Castano
Physics Lab Experiments with Simulated Data for Remote Delivery
A mechanical balance is used to study the role of torque in states of static equilibrium.
Experiment 1.08: Buoyancy, Diego Castano
Experiment 1.08: Buoyancy, Diego Castano
Physics Lab Experiments with Simulated Data for Remote Delivery
Archimedes Principle is used to determine the density of an unknown metal.
Experiment 1.05: Energy, Diego Castano, Victor Castro
Experiment 1.05: Energy, Diego Castano, Victor Castro
Physics Lab Experiments with Simulated Data for Remote Delivery
The conservation of energy for the case of a descending glider on an inclined air-track is examined.
Experiment 1.06: Momentum, Diego Castano, Andrew Kiene
Experiment 1.06: Momentum, Diego Castano, Andrew Kiene
Physics Lab Experiments with Simulated Data for Remote Delivery
The conservation of momentum for the case of colliding gliders on an air-track is examined.
Experiment 1.03: Acceleration Due To Gravity: Inclined Surface, Diego Castano
Experiment 1.03: Acceleration Due To Gravity: Inclined Surface, Diego Castano
Physics Lab Experiments with Simulated Data for Remote Delivery
The acceleration due to gravity is determined from the descent of a near frictionless glider on an inclined air-track.
Experiment 1.01: Measurement, Diego Castano, Victor Castro
Experiment 1.01: Measurement, Diego Castano, Victor Castro
Physics Lab Experiments with Simulated Data for Remote Delivery
Introduction to measurement/data analysis; measurements of an aluminum cylinder and cuboid are used to determine their densities.
Experiment 1.10: Standing Waves On Strings, Diego Castano
Experiment 1.10: Standing Waves On Strings, Diego Castano
Physics Lab Experiments with Simulated Data for Remote Delivery
The fourth harmonic of a vibrating string is used to determine the acceleration due to gravity.
Experiment 1.09: The Simple Pendulum, Diego Castano
Experiment 1.09: The Simple Pendulum, Diego Castano
Physics Lab Experiments with Simulated Data for Remote Delivery
A simple pendulum is used to determine the acceleration due to gravity.
Bathypelagic Ocean Waters, Christy Linardich, Tracey Sutton, Imants G. Priede, David A. Keith
Bathypelagic Ocean Waters, Christy Linardich, Tracey Sutton, Imants G. Priede, David A. Keith
Marine & Environmental Sciences Faculty Books and Book Chapters
No abstract provided.
Mesopelagic Ocean Waters, Kate E. Watermeyer, Eduard J. Gregr, Ryan R. Rykaczewski, Imants G. Priede, Tracey Sutton, David A. Keith
Mesopelagic Ocean Waters, Kate E. Watermeyer, Eduard J. Gregr, Ryan R. Rykaczewski, Imants G. Priede, Tracey Sutton, David A. Keith
Marine & Environmental Sciences Faculty Books and Book Chapters
No abstract provided.
Epipelagic Ocean Waters, Kate E. Watermeyer, Ryan R. Rykaczewski, Imants G. Priede, Tracey Sutton, David A. Keith
Epipelagic Ocean Waters, Kate E. Watermeyer, Ryan R. Rykaczewski, Imants G. Priede, Tracey Sutton, David A. Keith
Marine & Environmental Sciences Faculty Books and Book Chapters
No abstract provided.
Spring 2014, Nsu Oceanographic Center