diff --git a/README.md b/README.md
index 2087732..0021e05 100644
--- a/README.md
+++ b/README.md
@@ -6,13 +6,14 @@ This project is a collection of learning modules in engineering computations for
 undergraduate students. These materials are a combination of work from [Prof.
 Ryan C. Cooper](https://ryan-c-cooper.uconn.edu) at the University of
 Connecticut Mechanical Engineering Department and the [Engineering Computations
-Modules](https://github.com/engineersCode/EngComp) from Prof. Lorena A.  Barba
-doctoral student Natalia C. Clement at the George Washington University,
+Modules](https://github.com/engineersCode/EngComp) from Prof. Lorena A. Barba
+and doctoral student Natalia C. Clement at the George Washington University,
 Mechanical and Aerospace Engineering Department. 
 
-Each learning modules is made up of three or four lessons, written as a Jupyter
-notebooks. We address an area of application or skills in computing. We use
-Python as the programming language.
+Each learning modules is made up of three or four lesson, written as a Jupyter
+notebooks. We address an area of application or skills in computing in each
+notebook and each module has an overall objective. We use Python as the
+programming language.
 
 The overall goal of the course is learn to frame engineering problems as
 computational methods. Once we can communicate our engineering problems to
@@ -22,17 +23,42 @@ computational methods to solve those problems.
 [CompMech01-Getting
 Started](https://github.uconn.edu/rcc02007/CompMech01-Getting-started)
 
+- Getting comfortable with Python
+
+- Quantifying error in computational methods
+
 [CompMech02-Analyze-data](https://github.uconn.edu/rcc02007/CompMech02-Analyze-data)
 
+- Describing and plotting data
+
+- Some statistics
+
+- Monte Carlo modelling
+
 [CompMech03- Initial Value
 Problems](https://github.uconn.edu/rcc02007/CompMech03-IVPs)
 
+- Creating functions that are physical models
+
+- Solving ordinary differential equations
+
+- Solving nonlinear equations
+
 [CompMech04- Linear
 Algebra](https://github.uconn.edu/rcc02007/CompMech04-LinearAlgebra)
 
+- Define sets of equations as matrix algebra
+
+- Solve for multiple equations for multiple unknown variables
+
 [CompMech05- Boundary Value
 Problems](https://github.uconn.edu/rcc02007/CompMech05-BVPs)
 
+- Continue creating functions that are physical models
+
+- Solve 1D and 2D partial differential equations with finite difference
+  approximations
+
 
 ## License