discussion for the titration of NaOH and HNO3 by using phenolphthalein & methyl
orange indicators
The purpose of rinsing is to avoid any contamination of samples.
Yes, it is possible to have viva questions on titration. Some potential questions could focus on the principles of titration, the choice of indicators, calculations involved in titration, different types of titrations, sources of errors in titration, and applications of titration in various industries.
Possible sources of error in a conductimetric titration experiment include temperature fluctuations affecting conductivity values, impurities in the solutions affecting conductivity readings, and improper calibration of the conductivity meter. The solution in the burette is typically more concentrated to ensure the endpoint can be easily detected during the titration. In the graphs obtained from the experiment, there is usually a sharp increase in conductivity at the equivalence point, indicating the completion of the reaction between the analyte and titrant.
This is far to be a rule for this titration.
problems faced when doing titration
The titrant in the burette is used to react with the analyte in the flask during a titration experiment to determine the concentration of the analyte.
The recommended concentration of NaOH for a successful titration experiment is typically around 0.1 to 0.5 M (molarity).
A burette is typically used in a titration experiment to deliver a measured volume of one solution (the titrant) into another solution (the analyte). The burette is filled with the titrant and the volume of titrant delivered is carefully monitored during the titration process.
The scout titration is a preliminary titration carried out to estimate the approximate endpoint in a titration experiment before performing the actual titration. It helps in determining the approximate volume of titrant required for the main titration to avoid overshooting the endpoint.
Sources of systematic error in a titration experiment include inaccurate calibration of equipment, presence of impurities in the reactants, improper mixing or rinsing of glassware, and deviations from ideal titration conditions (temperature, pH, etc.). These errors can lead to inaccuracies in the volume of titrant delivered or the endpoint detection, affecting the results of the titration.
Titration quenching is a process where a substance is added to a solution to stop a chemical reaction or change in pH during a titration experiment. This substance helps to stabilize the solution at the endpoint of the titration, ensuring accurate results.
The discussion for experiment of the microscope has focused on the many uses of the microscope. The discussion also goes into depth regarding the many techniques of use.
Discussion follows your main topic sentence of your results from your experiment. In the discussion, you describe the hypothesis you were trying to prove with the experiment, bring up any literature that supports your hypothesis - or not - and what happened during the experiment. Be sure to include how you set up the experiment.
Yes, it is necessary to fill the nozzle of the burette in a titration experiment in order to ensure accurate and precise measurements of the volume of liquid being dispensed. This also helps to prevent air bubbles from forming in the burette, which could affect the accuracy of the titration.
In a titration experiment, the equivalence point can be found using methods such as using a pH meter to detect a sudden change in pH, using an indicator that changes color at the equivalence point, or using a titration curve to identify the point of neutralization.
The midpoint in a titration experiment is the point at which half of the analyte has reacted with the titrant. The equivalence point is when the amount of titrant added is exactly enough to react completely with the analyte.
The independent variable in a titration is the volume of titrant added to the analyte solution. It is controlled by the person conducting the experiment and is typically plotted on the x-axis of a titration curve.