Skip to Main Content
Powered by
QUBES
Login
close
SCUDEM
EXPO
SIMIODE EXPO 2024
SIMIODE EXPO 2023
SIMIODE EXPO 2022
SIMIODE EXPO 2021
Textbook
Redeem Access or Download Code
Third Party Sales
Browse
Starter Kit
Authors
About
Newsletter
Members
224
Announcements
2
Blog
34
Calendar
Collections
Forum
1
Projects
Resources
Usage
Resources
Filter
Text Search:
Resource Type
(41)
Modeling Scenario
(8)
Technique Narrative
(1)
Potential Scenario
(25)
Article or Presentation
(1)
Free Online Textbook
(5)
General Resource
(1)
Sample Syllabus
(0)
Assessment Rubric or Guide
(0)
SCUDEM
(0)
EXPO
(0)
Differential Equation Type
(41)
ODE
(36)
PDE
(5)
Difference
(1)
Delay
(2)
Integral
(2)
First
(11)
Second
(8)
Higher
(2)
Linear
(7)
Nonlinear
(9)
System
(18)
Constant Coeff
(1)
Homogeneous
(3)
Nonhomogeneous
(1)
Other
(2)
Technique
(41)
Boundary Value Problems
(6)
Eigen Methods
(0)
Exact Equations
(0)
Fourier Series
(0)
Initial Value Problems
(29)
Integrating Factor
(1)
Laplace Transform
(1)
Linear Algebra
(1)
Matrices
(0)
Numerical Methods
(5)
Parameter Estimation
(12)
Qualitative Behavior
(3)
Separable
(1)
Separation of Variables
(1)
Series
(0)
Substitution Methods
(0)
Theory (general)
(0)
Undetermined Coefficients
(0)
Variation of Parameters
(0)
Other
(9)
Qualitative Analysis
(41)
Equilibrium
(3)
Stability
(4)
Attractor
(0)
Phase Plane
(1)
Graphical analysis
(5)
Eigenvalue analysis
(0)
Parameters
(18)
Other
(19)
Application Area
(41)
Chemistry
(5)
Economics
(1)
Engineering
(6)
Humanities
(0)
Life Sciences
(22)
Mathematics
(28)
Modeling (general)
(31)
Physics
(9)
Social Sciences
(2)
Other
(0)
Course
(41)
Precalculus
(0)
Calculus 1
(2)
Calculus 2
(6)
Calculus 3 (multivariable)
(0)
Differential Equations
(40)
Modeling
(40)
Other
(0)
Course Level
(41)
Introductory
(41)
Upper Level
(37)
Graduate
(0)
High School
(18)
Other
(0)
Lesson Length
(41)
Portion of one class period
(0)
One class period
(7)
Multiple class periods
(2)
One term (semester or quarter)
(2)
One year
(0)
Other
(30)
Technology
(41)
Derive
(0)
Excel
(3)
GeoGebra
(0)
Maple
(2)
Mathematica
(4)
MathCad
(0)
MatLab
(6)
Octave
(1)
Python
(1)
R
(0)
SAGE
(0)
Desmos
(0)
Calculator
(0)
None
(1)
Other
(30)
Approach
(41)
Directed
(2)
Flipped
(0)
Guided
(8)
Open-ended
(0)
Discussion
(0)
Develop model
(1)
Other
(32)
Skills
(41)
Data collection
(3)
Data analysis
(11)
Programming
(2)
Statistics
(1)
Other
(30)
Key Scientific Process Skills
(9)
Reading research papers
(0)
Reviewing prior research
(2)
Asking a question
(9)
Formulating hypotheses
(7)
Designing/conducting experiments
(1)
Predicting outcomes
(3)
Gathering data/making observations
(2)
Analyzing data
(3)
Interpreting results/data
(5)
Displaying/modeling results/data
(5)
Communicating results
(4)
Translating into mathematics
(0)
Assessment Type
(9)
Assessment of individual student performance
(0)
Assessment of student groups/teams
(0)
Assignment
(0)
Exam/quiz, in class
(0)
Exam/quiz, take home
(0)
Homework
(9)
Answer clicker-type question(s)
(0)
Answer essay question(s)
(0)
Answer fill in the blank question(s)
(0)
Answer multiple choice question(s)
(0)
Answer short answer question(s)
(0)
Answer true/false question(s)
(0)
Create a concept map
(0)
Create a diagram, drawing, figure, etc.
(0)
Create a website
(0)
Create graph, table etc. to present data
(0)
Design an experiment or research study
(0)
Design/present a poster
(0)
Give an oral presentation
(0)
Informal in-class report
(0)
Interpret data
(0)
Order items (e.g. strip sequence)
(0)
Participate in discussion
(0)
Peer evaluation
(0)
Post-test
(0)
Pre-test
(0)
Produce a video or video response
(0)
Respond to metacognition/reflection prompt
(0)
Self evaluation
(0)
Solve problem(s)
(0)
Written assignment: One minute paper
(0)
Written assignment: Brochure
(0)
Written assignment: Essay
(1)
Written assignment: Figure and or figure legend
(0)
Written assignment: Report
(7)
Written assignment: Literature review
(0)
Pedagogical Approaches
(8)
Think-Pair-Share
(0)
Brainstorming
(0)
Case Study
(0)
Clicker Question
(0)
Collaborative Work
(0)
One Minute Paper
(0)
Reflective Writing
(0)
Concept Maps
(0)
Strip Sequence
(0)
Computer Model
(0)
Physical Model
(1)
Interactive Lecture
(0)
Pre/Post Question
(0)
Guided inquiry/investigation
(7)
Vision and Change Core Competencies - Ability
(9)
Create and develop models
(7)
Use quantitative reasoning
(7)
Design simulations
(2)
Tap into interdisciplinary study
(2)
Communicate and collaborate with mathematics community
(0)
Communicate and collaborate with other disciplines
(2)
Understand the relationship between material and society
(0)
Principles of How People Learn
(9)
Motivates student to learn material
(9)
Focuses student on the material to be learned
(9)
Develops supportive community of learners
(0)
Leverages differences among learners
(0)
Reveals prior knowledge
(0)
Requires student to do the bulk of the work
(0)
Bloom's Cognitive Level
(8)
Foundational: factual knowledge & comprehension
(0)
Application & Analysis
(8)
Synthesis/Evaluation/Creation
(0)
Includes clear efforts on Issues
(0)
Diversity
(0)
Equity
(0)
Inclusion
(0)
Enhancement of all
(0)
Applied Filters
Downloads
Views
Date
Relevance
Potential Scenario
178
views
75
downloads
0
comments
2007-I-Liang_Chern-Mathematical Modeling and Differential Equations
In this course, I will mainly focus on, but not limited to, two important classes of mathematical models by ordinary differential equations: • population dynamics in biology • dynamics in classical mechanics.
population dynamics
ecology
dynamics
classical mechanics
chemical reaction
Modeling Scenario
237
views
357
downloads
0
comments
5-090-SolidParticleErosion-ModelingScenario
By applying Newton's second law, and making a collection of reasonable assumptions, students will derive a system of differential equations that model the path of a rigid particle as it gouges material from a more ductile surface.
classical mechanics
solid mechanics
Newton's Laws of Motion
rigid body
plasticity
pitting
ductile surface
Free Online Textbook
156
views
60
downloads
0
comments
2016-Langtangen-Pedersen - Scaling of Differential Equations
Nowadays, the greatest practical benefit of scaling is related to running numerical simulations, since scaling greatly simplifies the choice of values for the input data and makes the simulations results more widely applicable.
scaling
dimensionless
continuum mechanics
Potential Scenario
111
views
62
downloads
0
comments
2015-Peter_Cumber-Waggling pendulums and visualization in mechanics
This article describes an equation of motion for a waggling pendulum.
resonance
inverted pendulum
mechanics
damped pendulum
Potential Scenario
131
views
39
downloads
0
comments
2005-P_Howard-Modeling with ODE
In these notes we consider three critical aspects in the theory of ordinary differential equations: developing models of physical phenomena, mathematically well-posed, solving ODE numerically .
Fluid Mechanics
compartment
populations
variational methods
Hamiltonian mechanics
Potential Scenario
156
views
41
downloads
0
comments
2014-Brun-EtAl-An introduction to the mechanics of the lasso
Here, we study the mechanics of the simplest rope trick, the Flat Loop, in which the rope is driven by the steady circular motion of the roper’s hand in a horizontal plane.
bifurcation
motion
lasso
rod model
rodeo
Potential Scenario
200
views
85
downloads
0
comments
2009-Peter-Howard-Modeling With ODE
This is a set of class notes rich in examples and ideas for modeling. There is some MatLab code in support of some of the activities.
rates
competition
population
epidemic
pendulum
carbon dating
reaction chemistry
mechanics
planetary motion
drag racing
Hamilton’s method
variational method
Potential Scenario
115
views
51
downloads
0
comments
1987-Claude-Marmasse-Studies on differential equations of enzyme kinetics-Biomolecular scheme
The integral curve is compared with the solutions given by the two classical approximations to the problem: it is shown that the steady-state approximation is to be preferred to the rapid equilibrium theory as a general method.
steady-state model
isoclines
enzyme kinetics
Potential Scenario
137
views
42
downloads
0
comments
1989-Protopopescu-Santoro-Dockery-Combat modeling with partial differential equations
We propose an extension of the classical modeling of combat via Lanchester equations to include one-dimensional spatial effects.
combat
Lanchester
Modeling Scenario
666
views
712
downloads
0
comments
3-043-BallisticModeling-SpongeDart-ModelingScenario
The goal of this project is for students to develop, analyze, and compare three different models for the flight of a sponge dart moving under the influences of gravity and air resistance.
projectile motion
air resistance
ballistics
dimensional analysis
Newtonian mechanics
sponge dart
Nerf gun
Nerf dart
Buckingham's Theorem
Potential Scenario
139
views
47
downloads
0
comments
2003-Bohren-Dimensional analysis-falling bodies--fine art of not solving differential equations
Dimensional analysis is a simple, physically transparent and intuitive method for obtaining approximate solutions to physics problems, especially in mechanics.
falling body
dimensional analysis
drag
Free Online Textbook
210
views
77
downloads
0
comments
2016-Rob_deBoer-Population Dynamics A Graphical Approach
This book is an introduction into modeling population dynamics in ecology. Because there are several good textbooks on this subject, the book needs a novel ecological niche to justify its existence.
mathematical model
stability
competition
SIR
bifurcation
consumption
population population dynamics
general replication
nonlinear density dependencies
functional response
persistence
phase plan analysis
Potential Scenario
241
views
85
downloads
0
comments
1975-David_Burghes-Population dynamics An introduction to differential equations
In this paper a number of population models, which lead to differential equations, are derived. First-order variables separable equations are formulated from the Malthusian population model and its extension to include crowding effects.
fish
predator-prey
logistic
population
delay
lag
Potential Scenario
815
views
54
downloads
0
comments
2019-Stender_EtAl-Recovery_Of_Differential_Equations_From_Impulse_Response
In this work, a recent method, which allows reconstructing differential equations from time series data, is extended for higher degrees of automation.
time series
regression
response
impulse
oscillation
signal processing
sparse regression
system identification
Potential Scenario
215
views
83
downloads
0
comments
2014-XM-Huang-Ordinary Differential Equation Model and its Application in the Prediction Control of Population
In this paper, we study two kinds of ordinary differential equation models, i.e., Malthus model and Logistic model, and discuss their applications in the prediction control of population.
population dynamics
Logistic model
Malthus Model
Population Prediction Control
Modeling Scenario
364
views
362
downloads
0
comments
1-120-CircularRollerCoaster-ModelingScenario
Students study the dynamics of a circular roller coaster and work out the equations of motion in the ideal case as well as considering the interesting complication of including kinetic friction. This problem is an excellent introduction for students
population dynamics
energy
Fluid Mechanics
m
friction
roller coaster
integration by8 parts
Potential Scenario
146
views
51
downloads
0
comments
1991-JR_Lobry-P_Flandois-Comparison of Monod's Growth Model Parameters from the Same Data Set
The paper obtains the parameters in Monod's Growth model using a minimization of the sum of square errors with a given data set and obtains confidence intervals
Confidence intervals
sum of square errors
linearization
growth
Modo Growth model
Potential Scenario
152
views
85
downloads
0
comments
2015-Dios-EtAl-How Engineers deal with Mathematics solving Differential Equations
The students of fourth course, of the bachelor’s degree in Computer Sciences or Industrial Engineering at the University of Salamanca (Spain), they learn mathematics solving real problems with the help of the acquired interdisciplinary knowledge.
assessment
engineering education
Simulink
Modeling Scenario
236
views
332
downloads
0
comments
9-125-BeamModeling-ModelingScenario
This modeling scenario examines the deflection of a cantilever beam under two different distributed loads. Students will have the opportunity to conduct experiments with their own cantilever beam or use data provided to build a model.
Fluid Mechanics
beam
cantilever
impulse
Laplace transform
boundary condition
fourth order
Modeling Scenario
212
views
397
downloads
0
comments
3-050-CometOrbitalMechanics-ModelingScenario
The broad goal of this activity is to use a basic numerical method to approximate the solution of an initial value problem. In this particular case, we will use Euler's method to help model the trajectory of a comet as it orbits the sun.
trajectory
Space
Euler's method
orbital mechanics
comet
orbit
Results 1 - 20 of 41
Display #
5
10
15
20
25
30
50
100
500
1000
Start
Prev
1
2
3
Next
End