TopicArea		Model#	AvailPoints		Model name/sub-type		Keen Ex#
1. How To Model		1.1	1.00		Exp grow		NA
		1.2	1.00		2 initial pop		NA
		1.3	1.00		3 values for K		NA
		1.4ec*	1.00		Exp decay		1.3
2. Analytical &Differential Models Compared		2.1	1.00		NewtCoolorDiffBound		1.6 or 1.7
		2.2	1.00		FishGro/Stream drift		1.8 or 1.4
		2.3	2.00		SigGrowLimited		1.9
		2.4	2.00		Diff Newt or Fish		1.6 or 1.8
		2.5	2.00		Diff Choice		any
		2.6ec*	2.00		Compare DecayAnalDiff		1.3
3. Equlibrium & Steady State Models		3.1	1.00		Mmenton saturation
		3.2	2.00		MMw/∆Km
		3.3	2.00		Predator Satiation
		3.4	2.00		choicePh/phEnz/Allost
		3.5	2.00		BioChemRxTabular
		3.6	2.00		Rx2ndOrderLogGraph
		3.7	2.00		EquilibFluxMethodTabular
		3.7bec*	2.00		ChemEquiibGraphic
		3.8ec	1.30		OnTimeXtraCredit(10%)*
4. Fitting Model Equations		4.1	2.00		RxKinetw/Cfit_K3		6.3
5a. Methods of Numerical Solution to Diff. Eq.*
5b. Cell Metabolic Biochemical Models		5.1	2.00		ChanceCleland		Ex6-5
		5.2	3.00		LargeChanceClew/K5Fit		Ex6-7
		5.3	3.00		CaribouMigration		Meyers
		5.4	3.00		TrypsinAutocatalysis		Ex6-6
		5.5*	3.00		VeryLargeCClelend		Ex6-8
6. Dynamics of Homogeneous Populations		6.1a	1.50		Vpearls data FIT		Ex7-1
		6.1b	1.50		VerhultPearlsdT=0.01		Ex7-1
		6.1c	1.50		VPw/dataPlotted		Ex7-1
		6.2	2.00		VPw/∆NinitialEC		Ex7-2
		6.3	2.00		VPw/ResourceLag		Ex7-3
7. Advanced Population Models		7.1	2.00		Lvolterraw/SawtoothK		Ex7-4
		7.2	3.00		ImprovedEulerPopGow		Ex5-4
		7.3a	2.00		LVModEulerPred-Prey		Ex7-6
		7.3b	2.00		LVPredPreyPopvsPop		Ex7-6
		7.4a	1.50		LVpesticideAtPeak		Ex7-7
		7.4b	1.50		Lvpesticide AtTrough		Ex7-7
		7.5a	2.00		GaussCompetition		Ex7-10
		7.5b*	2.00		GaussToExtinction		Ex7-10
		7.6EC*	3.00		HollingTanModPredPrey		Ex7-8
8a. Ecosystems & Energy Flow
8b." Real World" Biogeochemical Compartment Models*
		8.1	3.00		SSpringsConstSolar		Ex13-1
		8.2	2.00		SSpringsVariableSolar		Ex13-1
		8.3	2.00		Sspringsw/Succession		Ex13-2
		8.4	3.00		AquaticEcosysFoodChain		Sp12.4
		8.5	3.00		SspringsNonLinearFeed		Ex13-3
		8.6*	4.00		Old Broomsedge Ecosys		Sp12.8
		8.7*	4.00		GlobalCarbonCycle
		8.8*	4.00		EffectsOfPCBs
9. Age Class Models & life Table simulations		9.1	3.00		SowBugLifeTblBasic		Ex9-1
		9.2	3.00		Sowbug-StabilityLifeTbls		Ex9-2
		9.3	2.00		SowB-LogisticLimit		Ex9-3
		9.4	4.00		AgeClsInsectLifeStages		Ex9-7
		9.5	5.00		EpidemicAgeClsQuiz		Sp8.5/RSM
		9.6*	4.00		N.SeasFishery		Sp#??
10a. Compartment Models in Physiology-Diffusion Models
10b. Physiological Models- Systems Models		10.1	2.00		SimpleCmptmentDiffusion		Ex14-1
		10.2	4.00		LinearDiffusionGradient		Ex14-2
		10.3	4.00		Active Transport		Ex14-5
		10.4a	2.00		SimpleAortaFluidFlow		Ex15-6
		10.4b	1.00		AoDataPolyfit/P-Vdata		Ex15-6a
		10.4c	1.00		AoDataPolyfit/P-Qdata		Ex15-6b
11. Control Systems (genetic, cellular, physiologic)
		11.1	2.00		DrugAdminSingleCmpt		Ex15-1
		11.2	3.00		LiverFunctionMultiCmpt		Ex15-3
		11.3	4.00		FullHumanAortaModel		Ex15-6
		11.4	3.00		NegFback-ThyroidH_Fn		Ex17-2
		11.5ec*	3.00		NegFback-RegOfVentilation		Ex17-1
12. Epidemiology/ Monte Carlo Stochastic Models*
		12.1*	3.00		EpidemicOgGonorrehea		Ex24-4
		12.2*	3.00		ThresholdsOfGenEpidemics		Ex24-6
		12.3*	4.00		FoxRabiesEpidemic		Ex24-8
		12.4*	4.00		StochsticGeneticDrift		Ex20-7
		FP(raw)			Final Project		choice
		FPT(raw)			Final Talk		choice
* indicates added/expanded coverage
# proposed revision to Curr. Comm. 2/4/03