MATH136 - Accelerated [Honors] Calculus
Course: MATH136 (Accelerated [Honors] Calculus) in MATH department at University of Washington.
Credit Hours: 5 • Academic Level: first-year undergraduate course
Course Requirements: Requires 1 prerequisite course
Prerequisite Chain Depth: 1 level of foundational courses required
Future Opportunities: Unlocks 61 advanced courses for further study
Part of the MATH curriculum at University of Washington, helping students progress through degree requirements.
Prerequisites for MATH136
Courses unlocked by MATH136
- MATH136 - Accelerated [Honors] Calculus
- EE215 - Fundamentals of Electrical Engineering
- EE447 - Control System Analysis I
- INDE310 - Linear and Network Programming
- ME323 - Engineering Thermodynamics
- CSE586 - Introduction to Synthetic Biology
- EE418 - Network Security and Cryptography
- ECON580 - Econometrics I: Introduction to Mathematical Statistics
- CHEM452 - Thermodynamics and Kinetics for Biochemists
- CHEM464 - Computers in Data Acquisition and Analysis
- CHEM456 - Chemical Thermodynamics
- CSE446 - Machine Learning
- INDE315 - Probability and Statistics for Engineers
- CEE415 - Machine Learning for Civil Engineers
- CET515 - Machine Learning for Civil Engineers
- EE467 - Machine Learning for Cybersecurity
- AMATH481 - Scientific Computing
- AMATH483 - High-Performance Scientific Computing
- CHEM455 - Quantum Mechanics of Atoms and Molecules
- CSE438 - Computational Neuroscience
- PHYS224 - Thermal Physics
- STAT311 - Elements of Statistical Methods
- STAT340 - Introduction to Probability and Mathematical Statistics I
- STAT509 - Econometrics I: Introduction to Mathematical Statistics
- STAT390 - Statistical Methods in Engineering and Science
- CHEME330 - Transport Processes I
- NME220 - Introduction to Molecular and Nanoscale Principles
- CEE317 - GeoSurveying
- CSE486 - Introduction to Synthetic Biology
- EE205 - Introduction to Signal Conditioning
- EE344 - Data-Driven Modeling and Machine Learning
- EE345 - Introduction to Foundations of Machine Learning
- EE391 - Probability for Information and Communication Engineering
- ESS411 - Geophysical Continuum Mechanics
- ESS412 - Introduction to Seismology
- ESS414 - Geophysics: Fluids
- BIOEN420 - Medical Imaging
- BIOEN451 - Optical Coherence Tomography
- BIOEN484 - Computational Modeling and Simulation of Bioelectricity
- CHEME476 - Introduction to Synthetic Biology
- AMATH352 - Applied Linear Algebra and Numerical Analysis
- AMATH482 - Computational Methods for Data Analysis
- BIOEN523 - Introduction to Synthetic Biology
- CFRM405 - Mathematical Methods for Quantitative Finance
- CHEME576 - Introduction to Synthetic Biology
- EE347 - Introduction to Robotics and Control Systems
- EE423 - Introduction to Synthetic Biology
- EE445 - Fundamentals of Optimization and Machine Learning
- EE523 - Introduction to Synthetic Biology
- MOLENG525 - Introduction to Synthetic Biology
- BIOEN423 - Introduction to Synthetic Biology
- AMATH353 - Partial Differential Equations and Waves
- AMATH401 - Vector Calculus and Complex Variables
- AMATH403 - Methods for Partial Differential Equations
- BIOEN325 - Biotransport I
- BIOEN448 - Bioacoustics and Therapeutic Ultrasound
- CEE327 - Transportation Engineering
- AMATH402 - Introduction to Dynamical Systems and Chaos
- BIOEN316 - Biomedical Signals and Sensors
- AMATH383 - Introduction to Continuous Mathematical Modeling
- CHEM475 - Honors Quantum Mechanics of Atoms and Molecules
Academic Planning at University of Washington
Students planning MATH136 at University of Washington should complete 1 prerequisite before enrollment.
Future Pathways: Completing MATH136 enables enrollment in 61 advanced courses for further study
This first-year course at University of Washington integrates into structured degree pathways for MATH programs, supporting timely graduation and academic progression.