Engineering Mathematics
E61294
Engineering Mathematics is a foundational textbook that systematically applies advanced mathematical methods to solve practical problems in electrical and mechanical engineering.
Statements (47)
| Predicate | Object |
|---|---|
| instanceOf |
engineering mathematics textbook
→
textbook → |
| appliesToDiscipline |
electrical engineering
→
mechanical engineering → |
| coversTopic |
Fourier series
→
Fourier transforms → Laplace transforms → Z-transforms → calculus → complex analysis → complex variables → differential equations → eigenvalues and eigenvectors → linear algebra → matrices and determinants → numerical methods → partial differential equations → probability and statistics → vector calculus → vector spaces → |
| educationalLevel |
university
→
|
| emphasizes |
practical applications of mathematics
→
problem-solving skills → |
| field |
engineering mathematics
→
|
| focusesOn |
application of advanced mathematical methods
→
solution of practical engineering problems → |
| hasPurpose |
to link mathematical theory with engineering applications
→
to provide mathematical foundation for engineers → |
| includes |
application-oriented exercises
→
practice problems → worked examples → |
| knowledgeArea |
STEM education
→
|
| language |
English
→
|
| relatedTo |
applied mathematics
→
control systems engineering → engineering analysis → signal processing → structural analysis → |
| typicalAudience |
electrical engineering students
→
engineering students → mechanical engineering students → |
| usedFor |
engineering problem modeling
→
engineering system analysis → engineering system design → |
| usedIn |
electrical engineering curriculum
→
mechanical engineering curriculum → undergraduate engineering education → |
Referenced by (1)
| Subject (surface form when different) | Predicate |
|---|---|
|
Charles Proteus Steinmetz
→
|
notableWork |