unit 5 planner - WordPress.com
... equation f(x)=g(x); find the solutions approximately, e.g., using technology to graph the functions, make tables of values, or find successive approximations. Include cases where f(x) and/or g(x) are linear, polynomial, rational, absolute value, exponential, and logarithmic functions. A.REI.12: Grap ...
... equation f(x)=g(x); find the solutions approximately, e.g., using technology to graph the functions, make tables of values, or find successive approximations. Include cases where f(x) and/or g(x) are linear, polynomial, rational, absolute value, exponential, and logarithmic functions. A.REI.12: Grap ...
4.1 Systems of Linear Equations in two variables
... Equations in Two Variables After this lesson, you should be able to solve systems of linear equations in two variables by graphing solve these systems using substitution solve these systems using elimination by addition solve applications of linear systems. ...
... Equations in Two Variables After this lesson, you should be able to solve systems of linear equations in two variables by graphing solve these systems using substitution solve these systems using elimination by addition solve applications of linear systems. ...
Algebra 1 Systems of Equations and In
... o Graphing: Graph both equations in the same coordinate plane. The point where the lines intersect is the solution. Check your estimated point by substituting the ordered pair into both of the original equations. o Substitution: Solve one of the equations for one of its variables. Substitute the exp ...
... o Graphing: Graph both equations in the same coordinate plane. The point where the lines intersect is the solution. Check your estimated point by substituting the ordered pair into both of the original equations. o Substitution: Solve one of the equations for one of its variables. Substitute the exp ...
Stokes` law - schoolphysics
... where v is the terminal velocity of the sphere. From the formula it can be seen that the frictional drag is smaller for large spheres than for small ones, and therefore the terminal velocity of a large sphere is greater than that for a small sphere of the same material. Stokes' law is important in M ...
... where v is the terminal velocity of the sphere. From the formula it can be seen that the frictional drag is smaller for large spheres than for small ones, and therefore the terminal velocity of a large sphere is greater than that for a small sphere of the same material. Stokes' law is important in M ...
Solving one step equations
... If the number to move is positive, subtract it from both sides of the equation. If the number to move is negative, add its positive value to both sides of the equation. ...
... If the number to move is positive, subtract it from both sides of the equation. If the number to move is negative, add its positive value to both sides of the equation. ...
3 Substitution Lesson
... (1) x – 2y = 5 (2) 4x + 3y = 9 The first step is to write the first equation in terms of x: x = 2y + 5 On one side of the index card, the students will write x. On the other side, they will write 2y + 5 in parentheses. Then, the students write Equation 2 (4x + 3y = 9) in very large letters across th ...
... (1) x – 2y = 5 (2) 4x + 3y = 9 The first step is to write the first equation in terms of x: x = 2y + 5 On one side of the index card, the students will write x. On the other side, they will write 2y + 5 in parentheses. Then, the students write Equation 2 (4x + 3y = 9) in very large letters across th ...
