Engineering Transfer

CHEM 120: Chemistry for Engineering is a one-semester general chemistry course fulfilling the chemistry requirement for transfer into engineering programs, emphasizing aspects of physical chemistry. The course begins with thermochemistry, followed by classical and quantum mechanical concepts used to discuss atomic and molecular structure. The course continues with an investigation of gases, and consideration of the intermolecular forces in liquids and solids. An investigation of reaction rates (kinetics) is followed with the principles of equilibria applied to pure substances and aqueous solutions of acids, bases and salts. The laws of thermodynamics applied to chemical systems are introduced. The course concludes with a unit on electrochemistry. The lab work stresses scientific observations and measurements using chemical syntheses and quantitative analyses.

CPSC 100 Introduction to Computer Programming I is an introductory object-oriented (OO) programming course with emphasis on basic programming constructs, algorithms, program design, and good programming practices. This course will introduce a high-level language to illustrate programming basics. Students will develop and test small OO programs which loop, make decisions, access arrays, define classes, instantiate objects, and invoke methods.

ENGL 110: College Composition is about thinking and writing. You will learn how to develop and express informed opinions on issues that matter. You will also learn about research, editing, and expository and persuasive academic writing forms.

ENGR 100 is an introduction to the principles of engineering design, engineering drawing and sustainable practice. This knowledge will be applied to practical projects to be undertaken by teams of learners. Learners experience integrated development and demonstrate writing, research, design and presentation skills through research and a design project.

ENGR 100 is a requirement for all students completing the First-Year Engineering Transfer program.

MATH 100: Calculus I is a course designed to provide students with the background in calculus needed for further studies. This course includes a review of functions and graphs; limits; the derivative of algebraic, trigonometric, exponential and logarithmic functions; applications of the derivative including related rates, maxima, minima, velocity and acceleration; the definite integral; an introduction to elementary differential equations; and applications of integration including velocity, acceleration, areas, and growth and decay problems.

Physics 104: Fundamental Physics I is a calculus based overview of the fundamentals of classical mechanics. This course is suitable for those interested in further study in the physical sciences and in engineering. Classical mechanics describes the physical phenomena occurring in the real world around us. We study linear and rotational motion of objects, and then consider how forces cause motion, using Newton's laws. We next use conservation of energy and conservation of momentum to describe the motion of objects. Finally we investigate heat transfer and simple harmonic motion. These topics form a basis for future physical science and engineering courses.

CHEM 125 Fundamentals of Chemistry II is the continuation for either CHEM 110 or CHEM 122. The course consists of two major units: physical chemistry and organic chemistry. The study of physical chemistry begins with an investigation of reaction rates (kinetics), followed by the principles of equilibria applied to pure substances and aqueous solutions, and an introduction to the laws of thermodynamics. The second major unit is a survey of the field of organic chemistry; topics include the physical and chemical properties of alkanes and alkenes, stereochemistry, and addition, substitution, and elimination reactions. The laboratory work involves the measurement of physical and chemical properties as well as chemical syntheses.

ENGR 101 Engineering Design and Communication II integrates instruction and activities in technical communications (written and oral) with engineering design. The learner will be introduced to fundamental principles and practical aspects of mechanical, electrical, and software engineering and will apply this knowledge in developing and implementing designs. The design methodology first covered in the ENGR 100 Engineering Design and Communication I course will continue to be developed. Learners will work in teams to execute a design project. Major written assignments will be based primarily on the design work done in this course.

MATH 101: Calculus II is a sequel to Math 100 for students who wish to major in science, math or engineering and includes the definite integral, applications of the definite integral to volume, arc length and surface area of revolution; inverse trig functions; techniques of integration; improper integrals; parametric equations and polar coordinates; linear first order differential equations; and an introduction to infinite series; convergence and power series; Taylor Polynomials.

Math 221: Introductory Linear Algebra topics covered in the course include the solution of systems of linear equations through Gaussian elimination; matrices and matrix algebra; vector spaces and their subspaces; coordinate mappings and other linear transformations; eigenvalues and eigenvectors; similarity and diagonalization; and constructions involving inner products such as orthogonal projections, the construction of Gram-Schmidt bases and least-square approximations. Although the course devotes a substantial amount of time to computational techniques, it should also lead the student to develop geometrical intuitions, to appreciate and understand mathematical abstraction, and to construct some elementary proofs.

Physics 105 is a calculus-based survey of the basics of electromagnetism. This course is suitable for those interested in further study in the physical sciences and in engineering. Electricity and magnetism form the basis for all modern electrical devices we utilize today and design for the future. We first study electrostatics of particles and simple objects. Then we investigate circuits involving electrical devices such as resistors, capacitors, and inductors. We next study how electricity and magnetism interact with each other both in circuits and in waves. Finally we look at modern subjects in physics such as semiconductors or nuclear physics. These topics form a basis for future physical science and engineering courses.

Physics 200: Principles of Mechanics, is an introduction to equilibrium mechanics. It is the study of the forces required to maintain equilibrium of a rigid body. Vectors, free body diagrams, forces, and moments will be introduced to provide the mathematical framework for setting up equations to solve equilibrium problems in three dimensions. Some applications include analysis of beams, trusses, frames, distributed loads, dry friction, and centroids. This course is generally for students enrolled in the engineering transfer program.