State University of New York
State University of New York: Molecular Orbital Theory
This exercise displays the molecular orbitals for a few small molecules and examines how to classify each.
State University of New York
State University of New York: Addition Reactions of Alkenes
This simulation explores the trends in product formation in addition reactions involving simple alkenes.
State University of New York
State University of New York: Nomenclature of Alkenes
This simulation explores the nature of the naming system that allows chemists to differentiate between the many different possible alkene structures.
State University of New York
State University of New York: Gas Density
This module simulates the measurement of the density of a gas sample. Different gaseous compounds and elements are available and the pressure and temperature of the sample can be adjusted.
State University of New York
State University of New York: The Ideal Gas Law
The behavior of gases near room temperature and 1 atm pressure can be described using four main properties: amount, pressure, volume, and temperature. In this simulation the mass, pressure and temperature can be varied.
State University of New York
State University of New York: Kinetic Molecular Theory
This module simulates the behavior of a small number of gas molecules in a small box.
State University of New York
State University of New York: Boiling Points of Simple Organic Compounds
This simulation explores the effects of molecular structure on normal boiling points for a series of related organic compounds.
State University of New York
State University of New York: The Classius Clapyron Equation
The Classius-Clapyron equation can be used to determine the enthalpy of vaporization from vapor pressure measurements over a range of temperatures. In this simulation students are asked to create the appropriate plot of the data and use...
State University of New York
State University of New York: Determining the Rate Equation: Graphical Method
In this learning module, students will learning how to determine a rate equation by utilizing the graphical method.
State University of New York
State University of New York: Chromatography and Equilibrium
The following simulation explores the process of of chromatography and equilibrium.
State University of New York
State University of New York: Disturbing a Chemical Equilibrium
This system allows a system with a set of initial concentrations to come to equilibrium. Once that state is attained adjustments can be made by altering one or more species.
State University of New York
State University of New York: Equilibria and Volume
This simulation involves an explanation of equilibria and volume, including the nitorgen dioxide/dinitrogen tetroxide system.
State University of New York
State University of New York: The Meaning of the Equilibrium Constant
This simulation shows a model of an equilibrium system for a unimolecular reaction.
State University of New York
State University of New York: Equilibrium Constant Expressions
This module simulates the reactions toward equilibrium for four systems with different stiochiometries.
State University of New York
State University of New York: Equilibrium Expressions
In this module students are asked to build the equilibrium constant expression for the reaction shown.
State University of New York
State University of New York: Acid Based Properties of Water
This simulation explores the effect of acid-based properties of water.
State University of New York
State University of New York: Acid Base Reactions
This simulation shows the exact 25 different acid-base pairs and examines how to the extent which they react relates to the strength of the acid and of the base.
State University of New York
State University of New York: Hydrolysis
In this module students can learn the pH of a particular salt solution by choosing the anion, the cation and the concentration.
State University of New York
State University of New York: Buffer Solutions
This simulation introduces buffer solutions.
State University of New York
State University of New York: The Common Ion Effect
This simulation explores the effect of secondary dissolved salts on the solubility of sparingly soluble salts.
State University of New York
State University of New York: Common Ion Effect in Acid Base Systems
This simulation uses solutions of weak acids and examines the response of this equilibrium system to the addition of the corresponding conjugate base.
State University of New York
State University of New York: P H of Buffer Solutions
This simulation allows the study of the pH of buffer solutions. Six acid-base conjugate pairs are available, and the concentration of the acid and of the base can be adjusted over one order of magnitude.
State University of New York
State University of New York: Binding Energy
This simulation allows students to understand relative binding energy.
State University of New York
State U of Ny: Industrial Jobs for Chemistry Majors
A useful article describing the types of jobs available to chemistry majors in industry.