very much
Most of the engineering classes are dependant on math knowledge; especially the solving of differential equations.
Carbon dating would be one thing...
Ordinary differential equations (ODEs) are widely used in various fields such as physics, engineering, biology, and economics to model dynamic systems. They describe phenomena like population growth, motion of objects under forces, electrical circuits, and heat transfer. In engineering, ODEs are crucial for analyzing systems' behavior, such as in control theory and signal processing. Additionally, they play a vital role in predicting changes over time in systems governed by continuous change.
All types of engineering professions use the quadratic formula since it applies to ordinary differential equations.
very much
There is no application of differential equation in computer science
very much
Applications of ordinary differential equations are commonly used in the engineering field. The equation is used to find the relationship between the various parts of a bridge, as seen in the Euler-Bernoulli Beam Theory.
jab answer mainay he btana tu yai bs naam ka answer.com hai
You'll find ordinary differential equations (ODEs) being used in chemical engineering for many things, such as determining reaction rates, activation energies, mass transfer operations, heat transfer operations, and momentum transfer operations.
Herman Betz has written: 'Differential equations with applications' -- subject(s): Differential equations
Laplace transforms to reduce a differential equation to an algebra problem. Engineers often must solve difficult differential equations and this is one nice way of doing it.
I. S. Habib has written: 'Engineering analysis methods' -- subject(s): Differential equations, Integral equations, Partial Differential equations
George Feineman has written: 'Applied differential equations' -- subject(s): Differential equations, Engineering mathematics
Dennis G. Zill has written: 'A First Course in Differential Equations with Modeling Applications (Non-InfoTrac Version)' 'Pssm-Calculus' 'Multivariable calculus' -- subject(s): Calculus 'Even-numbered answers' 'Advanced engineering mathematics' -- subject(s): Engineering mathematics 'Advanced engineering mathematics' -- subject(s): Engineering mathematics 'Manual for differential equations with computer lab experiments' -- subject(s): Differential equations, Laboratory manuals, Data processing 'College Algebra and Trigonometry' -- subject(s): Trigonometry, Algebra 'Differential equations with boundary-value problems' -- subject(s): Differential equations, Textbooks, Boundary value problems 'Algebra and trigonometry' -- subject(s): Trigonometry, Algebra 'Pssm-Advanced Engineering Mathematics' 'College algebra' -- subject(s): Algebra 'Introd Calc F/Bus, Econ, Soc Sci' 'Student Solutions Manual for Zill's Differential Equations With Computer Lab Experiments' 'Differential equations with computer lab experiments' -- subject(s): Differential equations, Computer-assisted instruction 'Mathematica Mac Notebook-Diff Equ W/Comp' 'A First Course in Differential Equations' -- subject(s): Differential equations, Differentiaalvergelijkingen 'Maple IBM Notebook - Diff Equ W/Comp Lab'
Zeev Schuss has written: 'Theory and applications of stochastic differential equations' -- subject(s): Stochastic differential equations