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West Virginia Content Standards and
Objectives:
http://wvde.state.wv.us/policies/
Math
M.O.8.2.1: use a variety of strategies to solve one and two-step linear equations
and inequalities with rational solutions; defend the selection of the strategy; graph the solutions and justify the reasonableness of the solution.
M.O.8.2.2: identify proportional relationships in real-world situations, then find and select an appropriate method to determine the solution; justify the reasonableness of the solution.
M.O.8.2.6: graph linear equations and inequalities within the Cartesian coordinate plane by generating a table of values (with and without technology).
M.O.8.2.7: formulate and apply a rule to generate an arithmetic,
geometric and algebraic pattern.
M.O.8.2.8: determine the slope of a line using a variety of methods (i.e., graphing, change in y over change in x, and equation).
M.O.8.2.9: represent and solve real-world grade appropriate problems using multiple strategies and justify reasonableness.
M.O..8.5.1: determine and explain whether a real-world situation involves permutations or combinations, then use appropriate technology to solve the problem.
M.O.8.5.4: analyze problem situations, games of chance, and consumer
applications using random samplings to determine probability, make predictions, and identify sources of bias.
M.O.8.5.5: draw inferences, make conjectures and construct convincing arguments involving 1) different effects that changes in data values have on measures of central tendency and 2) misuses of statistical or numeric information, based on
data analysis of same and different sets of data.
M.O.A1.2.3: evaluate data provided, given a real-world situation, select an appropriate literal equation and solve for a needed variable.
M.O.A1.2.5: analyze a given set of data for the existence of a pattern
numerically, algebraically and graphically, write equations from the patterns and make inferences and predictions based on the observing pattern.
M.O.A1.2.6: determine the slope of a line through a variety of strategies (e.g. given an equation or graph).
M.O.A1.2.7: analyze situations and solve problems by determining the equation of a line given a graph of a line, two points on the line, the slope and a point, or the slope and y intercept.
M.O.CM.2.2: interpret graphs of functions including linear, quadratic, and
exponential.
M.O.CM.2.3: solve application problems using linear, quadratic and
exponential functions with emphasis on data collection and analysis.
M.O.CM.2.4: choose the appropriate formulas to solve workplace problems and judge the reasonableness of the solutions.
M.O.CM.5.2: integrate other disciplines into the study of mathematics
through simulations, research, and projects
M.O.CM.5.5: collect and interpret data using various methods of displaying numerical data, including frequency distributions, graphs, histograms, stem-and-leaf plots, and box-and-whiskers plots, using technology when appropriate.
M.O.CM.5.8: use statistical tools for workplace applications such as
quality control, marketing and predicting trends.
M.O.PS.5.3: determine possible outcomes using tree diagrams and the
counting principles of permutations and combinations.
M.O.PS.5.6: relate the measures of central tendency and the measures of dispersion to a normal distribution.
M.O.PS.5.10: test the validity of a hypothesis using
statistical concepts including t-test, justify results.
Science
SC.9.4.21hypothesize and experiment when different
components are substituted in an electrical circuit; define and
solve electrical problems involving potential difference, Ohm’s Law
and power.
SC.9.4.22 relate the forces between charged objects to the charge on
the objects and the distance between them.
SC.10.4.23 qualitatively explain the relationship between
electricity and magnetism and describe how electrical components of
a circuit function.
AP.4.20 recognize the basic properties of electrical charge,
charging by conduction and induction, and differentiate between
conductors and insulators; calculate electrical force using
Coulomb’s law.
AP.4.21 recognize that circuits are closed loops; define units of
electrical measure.
AP.4.22 construct and analyze electrical circuits and calculate
Ohm’s law problems for series, parallel and complex circuits
including voltage drops; calculate power and energy in electrical
systems.
Technology
TEC.9-12.1.1 use data input skills appropriate to
the task.
TEC.9-12.1.2 demonstrate knowledge and appropriate use of hardware
components, software programs, and their connection.
TEC.9-12.2.1 practice ethical behavior in using computer-based
technology for class assignments and projects.
TEC.9-12.2.2 adhere to Fair Use and Multimedia Copyright Guidelines,
citing sources of copyrighted materials in papers, projects and
multi-media presentations.
TEC.9-12.3.1 integrate advanced technology application skills in the
use of the word processor, database and spreadsheet.
TEC.9-12.3.2 select and use appropriate technology tools to
efficiently collect, analyze and display data that is relevant to
class assignments.
TEC.9-12.3.3 practice and refine knowledge and skills in databases
in preparing classroom assignments and projects.
TEC.9-12.3.4 create, publish, and present projects related to
content areas using a variety of technological tools.
TEC.9-12.5.1 use a variety of strategies to acquire information from
electronic resources.
TEC.9-12.5.2 conduct online research and evaluate the information
found as to the validity, appropriateness, content and usefulness
TEC.9-12.6.1 investigate and apply expert systems, intelligent
agents, and simulations in real world situations.
National Standards Addressed:
http://www.mcrel.org/standards-benchmarks/
Math
1. Uses a variety of strategies in the
problem-solving process
2. Understands and applies basic and advanced properties of the
concepts of numbers
3. Uses basic and advanced procedures while performing the
processes of computation
4. Understands and applies basic and advanced properties of the
concepts of measurement
6. Understands and applies basic and advanced concepts of
statistics and data analysis
7. Understands and applies basic and advanced concepts of
probability
8. Understands and applies basic and advanced properties of
functions and algebra
9. Understands the general nature and uses of mathematics
Science
Physical Sciences
8. Understands the structure and properties of
matter
9. Understands the sources and properties of energy
10. Understands forces and motion
Nature of Science
12. Understands the nature of scientific knowledge
13. Understands the nature of scientific inquiry
Technology
1. Knows the characteristics and uses of computer
hardware and operating systems
2. Knows the characteristics and uses of computer software programs
3. Understands the relationships among science, technology,
society, and the individual
4. Understands the nature of technological design
5. Understands the nature and operation of systems
6. Understands the nature and uses of different forms of technology
21st Century Skills:
The Partnership
for Twenty-first Century Skills
- Creativity and intellectual curiosity
- Critical thinking and systems thinking
- Problem identification, formulation, and solution
- Thinking and problem-solving skills
- Communication skills
- Information and media literacy skills
- Interpersonal and collaborative skills
- Social responsibility
- Self-direction
- Accountability and adaptability
Bloom's Taxonomy:
http://www.edselect.com/Docs/wheel.pdf.
Bloom's Level |
Lesson 1 |
Lesson 2 |
Lesson 3 |
Lesson 4 |
Lesson 5 |
|
| Knowledge |
x |
x |
x |
x |
x |
| Comprehension |
x |
x |
x |
x |
x |
| Application |
|
x |
x |
|
x |
| Analysis |
x |
|
|
x |
x |
| Synthesis |
x |
x |
|
x |
x |
| Evaluation |
|
x |
x |
x |
x |
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