AMATYC 2013Applications of

Engineering and Science in the Calculus Sequence

Omar Adawi

Parkland College

Calculus I

Velocity and Acceleration in One Dimension – Physics I

Free Fall – Physics I

Simple Harmonic Motion – Physics I, III

Average Value of a Function – Time Average Over a Cycle – Physics II, III

Separable Differential Equations – Radioactive Decay – Chemistry II, Physics III

Newton’s Law of Cooling – Physics II

Malthusian Population Model – Biology

Van Bertanlanffy Growth Model – Biology

Calculus II

Trigonometric Integrals – Fourier Series – Electrical Engineering

Integrals of Rational Functions – Logistic Population Model - Biology

Improper Integrals – Physics II

Taylor Series – Physics I, II, III

Conic Sections – Parabolas – Parabolic Trajectories – Physics I

Orbits of Planets and Comets - Astronomy

Calculus III

Unit Vectors – Statics

Dot Product –Bond Angles – Chemistry I

Work – Physics I, II

Direction Cosines – Statics

Vector Cross Product – Torque – Physics I, II, Statics

Vector-Valued Functions – Helix – Charged Particle in a Magnetic Field – Physics II

Projectile Motion – Physics I, Dynamics

Curvature and Normal and Tangential Components of

Acceleration – Dynamics

Functions of Several Variables – Level Curves – Ideal Gas Law – Chemistry I, Physics II

Level Surfaces – Equipotential Surfaces of a Point

Charge – Physics II

Directional Derivatives – Gradients – Physics II, III

Double and Triple Integrals – Center of Mass, Centroid – Physics I, Statics

Moments of Inertia – Physics I, Statics

Probability Distributions:

Maxwell-Boltzmann Velocity Distribution – Physics II,

Chemistry I

Hydrogen Atom Wavefunctions – Chemistry I, Physics III

Theorem of Pappus – Statics

Vector Fields – Electric Field due to a Point Charge – Physics II

Divergence and Curl – Physics II (Maxwell’s Equations)

Line Integrals – Electric Potential – Physics II

Path Independence:

Conservation of Energy and Conservative Vector Force Fields – Physics

I, II

Thermodynamic State Functions – Chemistry I, II

Differential Equations

Separable Equations - Radioactive Decay – Chemistry II, Physics III

Newton’s Law of Cooling – Physics II

Malthusian Population Model – Biology

Van Bertanlanffy Growth Model – Biology

Logistic Population Model – Biology

Chemical Rate Laws – Chemistry II

Linear First-Order Equations – Compartmental Analysis – Chemical Engineering

RC - Circuit – Physics II

RL - Circuit – Physics II

Velocity and Acceleration with Air Resistance -

Dynamics

Second-Order Linear Equations – Mass-Spring System – Physics I, Dynamics

RLC – Circuit – Physics II

Simple Pendulum – Physics I, Dynamics

Laplace Transforms – Electrical and Mechanical Engineering

Heaviside Function – Electrical Engineering

Linear First-Order Systems – Compartmental Analysis – Chemical Engineering

Selected References

  1. Bedford, A. and W. Fowler, Dynamics. 3rd Ed. Upper Saddle River, N.J.: Prentice Hall, 2002.
  1. Bedford, A. and W. Fowler, Statics. 3rd Ed. Upper Saddle River, N.J.: Prentice Hall, 2002.
  1. Finney, Ross L. and George B. Thomas, Jr., Calculus. 2nd Ed. Reading, MA: Addison-Wesley, 1994.
  1. Schey, Harry M., Div, Grad and Curl and All That. New York: Norton, 1975.
  1. Swokowski, Earl W. Calculus. 5th Ed. Belmont, CA:Brooks/Cole, 1991.
  1. Tipler, Paul A. Physics: For Scientists and Engineers. 4th Ed. New York: Freeman/Worth, 1999.