In this course, you will study the relationships between lines and angles. You will learn to calculate how much space an object covers, determine how much space is inside of a three-dimensional object, and other relationships between shapes, objects, and the mathematics that govern them.
In this course, you will cover some of the most basic math applications, like decimals, percents, and even fractions. You will not only learn the theory behind these topics, but also how to apply these concepts to your life. You will learn some basic mathematical properties, such as the reflexive property, associative property, and others. The best part is that you most likely already know them, even if you did not know the proper mathematical names.
Examination of waves and oscillations in extended objects; sources and laws that govern static electricity and magnetism; Maxwell’s equations; optics; and Einstein’s theory of special relativity.
A basic introduction to the current physical understanding of our universe, from an examination of basic principles of physical law, their application to the behavior of objects, and the use of the scientific method in driving advances in this knowledge.
This course will cover the topics of statistical calculations and graphical representations of data; probability; random variables and binomial distribution; the bell curve; statistical experimentation; data analysis; and linear regression and chi-square analysis.
This course emphasizes a multi-representational approach to calculus; with concepts, results, and problems being expressed graphically, numerically, analytically, and verbally. Broad concepts and widely applicable methods are also emphasized.
Examination of the properties behind the basic concepts of probability and statistics, designed to teach you ways to investigate the relationships between various characteristics of data.
college credit, thomas edison, tecep, asba, straighterline, ace, alternative credit project
Examination of the language and practice of set theory, and the theory and practice of mathematical proof, with the purpose of guiding you from “doing mathematics” at an elementary (i.e. problem-solving) level to “doing mathematics” at an advanced level.
Survey of concrete applications of how calculus is used and, more importantly, why it works, through the introduction of topics including limits, derivatives, integrals, and applications of integration.
Detailed introduction to the basic principles and methods of chemistry, which are the foundation to all subsequent chemistry courses. Surveys the metric system, scientific notation and significant figures, the atom and atomic theories, trends of the periodic table of the elements, bonding, molecular geometry, chemical formulas, stoichiometry, gas laws, thermochemistry, and thermodynamics.
Detailed introduction to molecular biology, including proteins, carbohydrates, lipids, and nucleic acids, water, and other compounds that make up the cell. Particular emphasis on the cell membrane, mitosis and meiosis, genetics and gene expression, transcription and translation, and cellular metabolism. This course was developed through a special partnership with the Washington State Board for Community and Technical Colleges.
Study that focuses on understanding microorganisms including their taxonomy and identification, chemistry and metabolism, growth, reproduction, and genetic characteristics. Particular emphasis on the common organisms that cause human disease, including bacteria, fungi, protozoa and helminthes, and viruses and other microbe uses and antimicrobial treatments are examined.
college credit, straighterline
Basic Principles of Non-clinical Development Book
The Predictive Value of Non-Clinical Testing
Requirements of Development of Galenic Formulations
Discover change in our natural eco-system.
The interests of a growing human population with sustainable ecosystems. How organisms adapt to their environments and the evolutionary change in an ecological context.
Learning electromagnetic field theory.
Vector and scalar quantities, parallelogram rule, head to tail rule,
Discover the concept of electric charge, electric force, electric field intensity, energy , potential and potential difference