Test
Students run simulated ELISA tests for AIDS.
Students model four ocean ecology scenarios as they investigate the effect of farm and industrial waste on ocean life.
Students analyze chloride content of seawater samples.
This calorimetry lab uses reliable reactions as students measure temperature changes, determine the calorimeter constant and ultimately calculate the molar enthalpy of formation for magnesium oxide using Hess's Law.
Students will enjoy this lab as they experience multiple techniques required for AP chemistry; synthesizing cobalt oxalate hydrate by precipitation, gravimetric analysis by dehydration, and oxidation-reduction (redox) titration on a unique compound.
Highly specific monoclonal antiserum to Rh factor tested for HbsAg and HTLV-III (AIDS).
Use this kit to perform partial processes of photosynthesis in the laboratory.
An introduction to observation and investigation using discovery.
Highly specific monoclonal antisera tested for HbsAg and HTLV-III (AIDS).
Guide students through the process of classifying and identifying objects with real-world examples, just like scientists!
Students create and analyze four different equilibrium systems, allowing manipulation of a variety of stresses to show how systems respond by shifting in the direction that reduces stress.
Using this superior reagent system, students are able to generate highly reproducible results from an iodine clock reaction.
This unique, hands-on lab shows students how to treat heat as a quantitative product, using continuous variation (Job's method).
Analyze oxidation-reduction (redox) reactions and become familiar with the activity series of metals and its importance in predicting the products of replacement reactions.