Main content
Math
- Interpret and rewrite algebraic expressions and equations in equivalent forms.
- Write, solve and graph linear equations, functions and inequalities in one and two variables.
- Write, solve and graph quadratic equations, functions and inequalities in one and two variables.
- Write, solve and graph absolute value equations, functions and inequalities in one and two variables.
- Write, solve and graph exponential and logarithmic equations and functions in one and two variables.
- Solve and graph polynomial equations and functions in one and two variables.
- Solve and graph radical equations and functions in one and two variables.
- Solve and graph rational equations and functions in one and two variables.
- Write and solve a system of two- and three-variable equations and inequalities that describe quantities or relationships.
- Solve problems involving sequences and series.
- Build mathematical foundations for financial literacy.
- Develop an understanding of basic accounting and economic principles.
- Describe the advantages and disadvantages of short-term and long-term purchases.
- Describe the advantages and disadvantages of financial and investment plans, including insurances.
- Prove and apply geometric theorems to solve problems.
- Apply properties of transformations to describe congruence or similarity.
- Use coordinate geometry to solve problems or prove relationships.
- Use geometric measurement and dimensions to solve problems.
- Make formal geometric constructions with a variety of tools and methods.
- Use properties and theorems related to circles.
- Apply geometric and algebraic representations of conic sections.
- Summarize, represent and interpret categorical and numerical data with one and two variables.
- Solve problems involving univariate and bivariate numerical data.
- Solve problems involving categorical data.
- Use and interpret independence and probability.
- Determine methods of data collection and make inferences from collected data.
- Use probability distributions to solve problems.
- Apply recursive methods to solve problems.
- Apply optimization and techniques from Graph Theory to solve problems.
- Apply techniques from Election Theory and Fair Division Theory to solve problems.
- Develop an understanding of the fundamentals of propositional logic, arguments and methods of proof.
- Apply properties from Set Theory to solve problems.
Florida B.E.S.T. Math
Grade 2: Algebraic Reasoning
Solve one- and two-step addition and subtraction real-world problems.
- 2-step addition word problems within 100
- 2-step subtraction word problems within 100
- Add and subtract on the number line word problems
- Add and subtract within 20 word problems
- Addition and subtraction word problems: gorillas
- Addition word problem: horses
- Addition word problems within 100
- Multi step addition word problem
- Multi-step subtraction word problem
- Subtraction word problem: basketball
- Subtraction word problem: crayons
- Subtraction word problems within 100
Determine and explain whether equations involving addition and subtraction are true or false.
Determine the unknown whole number in an addition or subtraction equation, relating three or four whole numbers, with the unknown in any position.
- Add & subtract within 20
- Add 2-digit numbers by making tens
- Add within 100 using a number line
- Add within 100 using place value blocks
- Add within 20
- Add within 20 visually
- Adding 53+17 by making a group of 10
- Adding within 20 using place value blocks
- Adding within 20 using ten frames
- Addition and subtraction word problems: gorillas
- Addition and subtraction word problems: superheroes
- Find the missing number (add and subtract within 100)
- Missing numbers in addition and subtraction
- Subtract within 100 using a number line
- Subtract within 100 using place value blocks
- Subtract within 20
- Subtract within 20 using place value blocks
- Subtract within 20 visually
Represent an even number using two equal groups or two equal addends. Represent an odd number using two equal groups with one left over or two equal addends plus 1.
Use repeated addition to find the total number of objects in a collection of equal groups. Represent the total number of objects using rectangular arrays and equations.