Course Overview
First and second order differential equations. Step and impulse functions. Laplace transforms and inverse transforms. Solutions of differential equations by transforms. Applications to electrical circuits, mechanical systems, signal processing, analysis of circuits and systems. Probability and statistics coverage includes descriptive statistics and data presentation. Appropriate mathematical software will be used.
Prerequisite(s)
- 50% in MATH 2342
Credits
4.0
- Not offered this term
- This course is not offered this term. Notify me to receive email notifications when the course opens for registration next term.
Learning Outcomes
Upon successful completion, the student will be able to:
- Derive differential equations for RL, RC, and RCL circuits or circuit networks, with constant or variable driving function.
- Solve first- and second-order differential equations, or systems of equations, obtained from the analysis of circuits or networks.
- Use Laplace transforms to study the behavior of electrical and mechanical circuits and systems.
- Compute various measures of central tendency (mean, median, mode), dispersion (range, standard deviation, variance) and rank (percentile, z score) in a set of data.
- Present data in summary form using frequency distributions, histograms, box plots and other plots.
Effective as of Fall 2021
Related Programs
Transform Calculus and Statistics (Mechatronics & Robotics) (MATH 3342) is offered as a part of the following programs:
- Indicates programs accepting international students.
School of Energy
- Mechatronics and Robotics
Diploma Full-time
Programs and courses are subject to change without notice. Find out more about BCIT course cancellations.