Grade 12

NL Grade 12 Math Curriculum

Video lessons and practice for every Applied Mathematics 3202 topic. Aligned to what Newfoundland and Labrador schools teach. Get help with trigonometry, probability, and financial math.

Advanced Mathematics 3200

Academic Mathematics 3201

Applied Mathematics 3202

Mathematics 3208

NL Grade 12 Math Curriculum | StudyPugHelp

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SO_ID	Outcome	StudyPug Topic
NL.SO.3202M1	Explain precision, accuracy, tolerance. Analyze contextual problems involving measurement concepts. Compare instruments and describe limitations.	Conversions between metric and imperial systems Metric systems Imperial systems Conversions involving squares and cubic

NL.SO.3202N1

Develop strategies to solve puzzles and win games. Create variations and identify errors in solutions.

Fundamental counting principle

Path counting problems

Introduction to probability

Organizing outcomes

Probability of independent events

Comparing experimental and theoretical probability

NL.SO.3202N2

Analyze vehicle buying, leasing options. Calculate costs and justify decisions based on financial factors.

Finance: Compound interest

Finance: Future value and present value

Simple interest

NL.SO.3202N3

Analyze small business operations, expenses, profitability. Determine break-even points and factors impacting profit.

Continuous growth and decay

Taxes, discounts, tips and more

NL.SO.3202A1

Analyze data trends, interpolate, extrapolate. Create and interpret graphs of linear and nonlinear relations.

Relationship between two variables

Understand relations between x- and y-intercepts

Domain and range of a function

Identifying functions

Distance formula:

d = \sqrt{(x_2-x_1)^2+(y_2-y_1)^2}

Slope equation:

m = \frac{y_2-y_1}{x_2- x_1}

Slope intercept form: y = mx + b

General form: Ax + By + C = 0

Point-slope form: y - y_1 = m(x - x_1)

Graphing from slope-intercept form y=mx+b

Graphing linear functions using a single point and slope

Word problems of graphing linear functions

Function notation

Parallel and perpendicular lines in linear functions

Applications of linear relations

Regression analysis

Equation of the best fit line

NL.SO.3202S1

Calculate and interpret measures of central tendency. Analyze effects of outliers and weighted data.

Median and mode

Range and outliers

Application of averages

Center of a data set: mean, median, mode

Spread of a data set - standard deviation & variance

Reading and drawing bar graphs

Reading and drawing histograms

Reading and drawing line graphs

Box-and-whisker plots and scatter plots

Z-scores and random continuous variables

NL.SO.3202S2

Explain relationships between median, percentile, and percentile rank.

Measures of relative standing - z-score, quartiles, percentiles

Introduction to normal distribution

Normal distribution and continuous random variable

NL.SO.3202P1

Calculate probabilities and odds. Apply probability concepts to decision-making and problem-solving.

Addition rule for

Multiplication rule for

Conditional probability

Probability involving permutations and combinations

Law of total probability

Probability with Venn diagrams

NL.SO.3202G1

Solve problems using sine and cosine laws. Apply trigonometry to construction and industrial contexts.

Applications of the sine law and cosine law

Angle of elevation and depression

NL.SO.3202G2

Analyze and apply properties of polygons. Solve problems involving symmetry and polygon characteristics.

Rotational symmetry and transformations

Similar triangles

Similar polygons

Classifying triangles

Isosceles and equilateral triangles

Pairs of lines and angles

Parallel lines and transversals

Parallel line proofs

Perpendicular line proofs

NL.SO.3202G3

Perform and analyze transformations of 2D shapes and 3D objects. Apply transformations to design problems.

Combining transformations of functions

Enlargements and reductions with scale factors

Transformations of functions: Horizontal translations

Transformations of functions: Vertical translations

Reflection across the y-axis: y = f(-x)

Reflection across the x-axis: y = -f(x)

Transformations of functions: Horizontal stretches

Transformations of functions: Vertical stretches

Even and odd functions