sb_sa: Titration Curve for a Strong Base

Description

This function calculates and plots the titration curve for a monoprotic strong base analyte using a monoprotic strong acid as the titrant. The calculation uses a single master equation that finds the volume of titrant needed to achieve a fixed pH, as outlined in R. de Levie's Principles of Quantitative Chemical Analysis (McGraw-Hill, 1997).

Usage

sb_sa(conc.base = 0.1, conc.acid = 0.1, pkw = 14, vol.base = 50, plot = TRUE, overlay = FALSE, eqpt = FALSE, ...)

Arguments

conc.base

Molar concentration of the strong base analyte; defaults to 0.10 M.

conc.acid

Molar concentration of the strong acid titrant; defaults to 0.10 M.

pkw

The pKw (or pKs) value for the solvent; defaults to water as a solvent with a pKw of 14.

vol.base

Initial volume, in mL, of the solution that contains the strong base analyte; defaults to 50.00 mL.

plot

Logical; if TRUE, plots the titration curve.

overlay

Logical; if TRUE, adds the current titration curve to the existing titration curve.

eqpt

Logical; if TRUE, draws a vertical line at the titration curve's equivalence point.

...

Additional arguments to pass to plot() function.

Value

A two-column data frame that contains the volume of titrant in the first column and the solution's pH in the second column. Also produces a plot of the titration curve with options to display the equivalence point and to overlay titration curves.

Examples

Run this code

### Simple titration curve with equivalence point
ex2 = sb_sa(eqpt = TRUE)
head(ex2)

### Overlay titration curves
sb_sa(conc.acid = 0.10)
sb_sa(conc.acid = 0.15, overlay = TRUE)
sb_sa(conc.acid = 0.20, overlay = TRUE)

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