This course uses calculus-based mathematical, models to introduce the fundamental concepts that, describe the physical world. Topics include units, and measurement, vector operations, linear, kinematics and dynamics, energy, power, momentum,, rotational mechanics, periodic motion, fluid, mechanics, and heat. Upon completion, students, should be able to demonstrate an understanding of, the principles involved and display analytical, problem-solving ability for the topics covered.
This course uses algebra- and trigonometry-based, mathematical models to introduce the fundamental, concepts that describe the physical world. Topics, include units and measurement, vectors, linear, kinematics and dynamics, energy, power, momentum,, fluid mechanics, and heat. Upon completion,, students should be able to demonstrate an, understanding of the principles involved and, display analytical problem-solving ability for the, topics covered.
This course is a laboratory for PHY 110. Emphasis, is placed on laboratory experiences that enhance, materials presented in PHY 110. Upon completion,, students should be able to apply the laboratory, experiences to the concepts presented in PHY 110.
This course is a laboratory for PHY 110. Emphasis, is placed on laboratory experiences that enhance, materials presented in PHY 110. Upon completion,, students should be able to apply the laboratory, experiences to the concepts presented in PHY 110.
This course provides a conceptually-based exposure, to the fundamental principles and processes of the, physical world. Topics include basic concepts of, motion, forces, energy, heat, electricity,, magnetism, and the structure of matter and the, universe. Upon completion, students should be, able to describe examples and applications of the, principles studied.