• 7
    Grade 7 Standards
Top Mathematicians
  • Statistics & Probability
  • Patterns and Relations
  • Shape and Space
    • 7.SS.1
      Demonstrate an understanding of circles by:
      describing the relationships among radius, diameter and circumference of circles
      relating circumference to pi
      determining the sum of the central angles
      constructing circles with a given radius or diameter
      solving problems involving the radii, diameters and circumferences of circles.

      Achievement Indicators
      - Illustrate and explain that the diameter is twice the radius in a given circle.
      - Illustrate and explain that the circumference is approximately three times the diameter in a given circle.
      - Explain that, for all circles, pi is the ratio of the circumference to the diameter (C/d), and its value is approximately 3.14.
      - Explain, using an illustration, that the sum of the central angles of a circle is 360°.
      - Draw a circle with a given radius or diameter with and without a compass.
      - Solve a given contextual problem involving circles.
    • 7.SS.2
      Develop and apply a formula for determining the area of:
      triangles
      parallelograms
      circles.

      Achievement Indicators
      - Illustrate and explain how the area of a rectangle can be used to determine the area of a triangle.
      - Generalize a rule to create a formula for determining the area of triangles.
      - Illustrate and explain how the area of a rectangle can be used to determine the area of a parallelogram.
      - Generalize a rule to create a formula for determining the area of parallelograms.
      - Illustrate and explain how to estimate the area of a circle without the use of a formula.
      - Apply a formula for determining the area of a given circle.
      - Solve a given problem involving the area of triangles, parallelograms and/or circles.
    • 7.SS.3
      Perform geometric constructions, including:
      perpendicular line segments
      parallel line segments
      perpendicular bisectors
      angle bisectors.

      Achievement Indicators
      - Describe examples of parallel line segments, perpendicular line segments, perpendicular bisectors and angle bisectors in the environment.
      - Identify line segments on a given diagram that are parallel or perpendicular.
      - Draw a line segment perpendicular to another line segment and explain why they are perpendicular.
      - Draw a line segment parallel to another line segment and explain why they are parallel.
      - Draw the bisector of a given angle using more than one method and verify that the resulting angles are equal.
      - Draw the perpendicular bisector of a line segment using more than one method and verify the construction.
    • 7.SS.4
      Identify and plot points in the four quadrants of a Cartesian plane using integral ordered pairs.
      Achievement Indicators
      - Label the axes of a four quadrant Cartesian plane and identify the origin.
      - Identify the location of a given point in any quadrant of a Cartesian plane using an integral ordered pair.
      - Plot the point corresponding to a given integral ordered pair on a Cartesian plane with units of 1, 2, 5 or 10 on its axes.
      - Draw shapes and designs, using given integral ordered pairs, in a Cartesian plane.
      - Create shapes and designs, and identify the points used to produce the shapes and designs in any quadrant of a Cartesian plane.
    • 7.SS.5
      Perform and describe transformations (translations, rotations or reflections) of a 2-D shape in all four quadrants of a Cartesian plane (limited to integral number vertices).
      Achievement Indicators
      (It is intended that the original shape and its image have vertices with integral coordinates.)
      - Identify the coordinates of the vertices of a given 2-D shape on a Cartesian plane.
      - Describe the horizontal and vertical movement required to move from a given point to another point on a Cartesian plane.
      - Describe the positional change of the vertices of a given 2-D shape to the corresponding vertices of its image as a result of a transformation or successive transformations on a Cartesian plane.
      - Determine the distance between points along horizontal and vertical lines in a Cartesian plane.
      - Perform a transformation or consecutive transformations on a given 2-D shape and identify coordinates of the vertices of the image.
      - Describe the positional change of the vertices of a 2-D shape to the corresponding vertices of its image as a result of a transformation or a combination of successive transformations.
      - Describe the image resulting from the transformation of a given 2-D shape on a Cartesian plane by identifying the coordinates of the vertices of the image.
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