This .5 credit course discusses the systematic study of matter, its properties, composition, and changes.
To earn credit for this course by the deadline, the following requirements must be met:
This semester course contains 46 modules and is designed to fulfill the state-required 60 contact hours. Students should spend 7.5 hours per week, completing at least 6 module(s) each week of the 8-week program. Each bulleted item in the assignment list below is a module. TIP FOR SUCCESS: It is best to work on your course consistently to allocate time for technical and/or content assistance, if needed.
An average of all scores on all modules will be calculated to determine a final grade. All modules are equally weighted. There are no + or – grades issued.
A = 90-100%
B = 80-89%
C = 70-79%
D = 60-69% (or 0-69% on post/end of semester tests)
I = Incomplete (course requirements have not been met)
Pretests provide an opportunity to exempt out of modules within the unit based on prior knowledge; the pretests are not included in the final grade. You may take the pretest one time. While you are not required to master modules that have been marked exempt, the unit posttest or end of semester test may contain questions from these modules; therefore, you may choose to master these modules to prepare for the posttests. The grade for a module that has been marked exempt is 100% whether you master it or not. Not all courses will have pretests.
Most lessons include a tutorial. The purpose of the tutorials is to help prepare students for the mastery tests. This is similar to lessons in traditional brick-and-mortar classrooms. Work in the tutorials will not be graded. If a mastery test is locked, reviewing the entire tutorial will automatically unlock the mastery test and allow you to retake it. The cycle of completing the tutorial to unlock a mastery test can be completed as often as needed until the required minimum 80% score is earned on the mastery test.
Utilize the blue toolbar on the left side of most tutorials. The toolbar options may include helpful resources such as notes, reading tools, calculator, translation, and highlighting options.
For the Edmentum/PLATO courses, 60 minutes within the same URL such as a tutorial or test, may cause progress to be lost. The best practice is to save and close and then relaunch the activity if the end of the hour is near to be sure work is saved. As the URL or webpage changes, such as moving from one tutorial to a different tutorial, the 60 minute clock is reset.
The minimum score required for each mastery test module is 80%. You may take the mastery tests multiple times. To unlock a mastery test, go back through the preceding activities for that module. You have unlimited attempts on the mastery tests, and each mastery test must be mastered or exempt in order to earn credit for the course. Review and retake each mastery test until you have earned at least 80%, but you can continue to retake the test to try to earn 100%. The score for a module that has been marked exempt is 100%.
For any module that does not have a mastery test, all parts of the module must be completed.
The score for each posttest or end of semester test will be 0-100%. Each of these scores is factored into your final grade. You may take these tests one time. Not all courses have posttests or end of semester tests.
Each bulleted item below is a module. Each module marked with an asterisk (*) contains a mastery test. To receive credit, you must:
NOTE: An indication of 100% complete in Edmentum/PLATO is NOT a guarantee of credit if the above criteria are not met. If a course shows 100% complete, select the course name then the gold "Not Mastered" to see the mastery tests that must be redone. To unlock a mastery test for another attempt, complete all slides of the tutorial again. If you think you have met all requirements to earn credit for the course, immediately email your advisor for verification.
Unit 1: Matter and Atomic Structure
Unit 2: The Periodic Table
Unit 3: Bonding
Unit 4: The Mole Concept
Unit 5: Chemical Reactions
Unit 6: Kinetic Molecular Theory and Gas Laws
End of Semester Test