Learning Goal ID: 110
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Calculated Breakdown:
Statements: 3 days Actions: 1 days Total: 4 days
Select the statements (facts/concepts) that comprise this learning goal.
Selected Statement Details:
KinEqn2_dvt One-dimensional motion with constant acceleration is described by the equation $x_\text{2}=x_\text{1} + \frac{1}{2} (v_\text{1}+v_\text{2}) (t_\text{2}-t_\text{1})$, where $x_\text{2}$ is the position at time $t_\text{2}$, $x_\text{1}$ is the position at time $t_\text{1}$, $v_\text{2}$ is the velocity at time $t_\text{2}$, and $v_\text{1}$ is the velocity at time $t_\text{1}$.
Select the actions (skills/tasks) that comprise this learning goal.
Selected Action Details:
EvalAlgebraicExpression Evaluate an expression (which may be the right-hand side of a suitably-solved equation)
SolveLinearInVar Solve an equation that is linear in a variable to obtain an expression for that variable
This learning goal inherits category values from its associated statements and actions. Categories are not directly assigned to learning goals.
Dimensions: 1D
ExportPhase: Phase1 Phase3
GradeBand: 0912
HighestQuantity: InstantaneousAcceleration
MathCourse: Algebra
MathOrExperiment: Math
Mechanics: Kinematics
Quantitativeness: Quantitative
Quantity: Velocity
Representation: Equation
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