Chem 162 experiment 5 Study guides, Class notes & Summaries

NAME: STUDENT ID #: QUIZ SECTION: Laboratory Waste Evaluation Laboratory waste is considered anything generated during an experiment that is disposed of down the sewer drain, thrown in the garbage, collected in a container for disposal by the UW Environmental Health & Safety department, or released into the environment. Based on the written lab procedure and your actions during the lab, list the identity and approximate amount (mass or volume) of waste that you generated while performin...

CHEM 162 EXPERIMENT # 5 SPECTROCHEMICAL SERIES COMPLETE SOLUTION 2023 UPDATE UNIVERSITY OF WASHINGTON

CHEM 162 EXPERIMENT 4: I. Fractional Crystallization Of KNO3 With 2Fe2.6H2O Impurity II. The Solubility Curve Of KNO3. Demonstrate the purification of a solid sample using the process of fractional crystallization • Construct a solubility curve for potassium nitrate • Apply the mechanics of dimensional analysis and an understanding of solubility of solids to calculatecomposition by mass, % impurity, % recovery, solubility product constant, enthalpy of solution formand entropy of solution f...

CHEM 162 Experiment Lab 4: Fractional Crystallization Part I: Fractional Crystallization of KNO3 with (NH4)2Fe(SO4)2.6H2O Impurity | 2023 Complete. Starting Components (Fract. Crystallization #0) data entry 3 Step 3: Mixture before first crystallization 3 mass KNO3 4.501 g mass (NH4 )2Fe(SO4 )2 . 6H2O 0.501 g Total mass of the sample mixture 5.002 g % Impurity (i.e., % Fe compound in the mixture)* 10.02 % *(This is your % impurity for Fract. Crystallization # 0) Fract. Crystallization...

CHEM 162 EXPERIMENT 4: I. Fractional Crystallization Of KNO3 With 2Fe2.6H2O Impurity II. The Solubility Curve Of KNO3. Starting Components (Fract. Crystallization #0) data entry 3 Step 3: Mixture before first crystallization 3 mass KNO3 4.501 g mass (NH4 )2Fe(SO4 )2 . 6H2O 0.501 g Total mass of the sample mixture 5.002 g % Impurity (i.e., % Fe compound in the mixture)* 10.02 % *(This is your % impurity for Fract. Crystallization # 0) Fract. Crystallization #1 Step 7: mass of dry filt...

CHEM 162 Experiment #1: Reactivity Trends ' · /l' ( ' ) I I ), / I ' II I', 1'•JJ •! /Goals of this lab: "" r • Investigate oxidation-reduction reactions to identify the relative ease of qx,l~al ipn amongI I varying grou~~ rea~nts , l / / • • • •;.1 A, J. • • Perform qualitative analysis to ~ccurately determine the relative ox,dizing ab,lk,es and ·C<f"str;uct ,~n actiVitYJSf~~s)~ase~;9'l t.~~se 'oi~ rva,.ttop s / I I J I J . • Evaluate data 1to ...

CHEM 162 Experiment #5: Spectrochemical Series

CHEM 162 Experiment #5: Spectrochemical Series Goals of this lab: • Produce a copper coordination compound and evaluate the yield • Calculate d-orbital splitting energies from spectral data in nanometers • Apply Crystal Field Theory to the comparison of ligand field strengths among groups of coordination complexes • Assess the accuracy of experimental data and identify sources of error Your lab report will be graded on the following criteria using a poor/good/excellent rating system: •...

CHEM 162 Experiment #5: Spectrochemical Series

CHEM 162 EXPERIMENT #5: SPECTROCHEMICAL SERIES (Complete Solution)Goals of this lab: • Produce a copper coordination compound and evaluate the yield • Calculate d-orbital splitting energies from spectral data in nanometers • Apply Crystal Field Theory to the comparison of ligand field strengths among groups of coordination complexes • Assess the accuracy of experimental data and identify sources of error Your lab report will be graded on the following criteria using a poor/good/excellent...