Anonymous asked in Science & MathematicsMathematics · 2 months ago

SAT Math 2 subject test question?

A regular pyramid has a 4 inch by 4 inch square base and a height of 8 inches. What is the length, in inches, of an altitude of one of the triangular faces of the pyramid?






It would be great if someone helped. Thanks:)   

4 Answers

  • 2 months ago
    Favourite answer

    Refer to the figure below which refers to the pyramid.

    In ΔABC:

    AB = 8 in

    BC = 4/2 in = 2 in

    AC² = AB² + BC²  (Pythagorean theorem)

    AC = √(8² + 2²) in

    Length of an altitude of one of the Δ faces, AC = 8.25 in

    The answer: D) 8.25

    Attachment image
  • 2 months ago

    Use pythagoras theorema     a²+b²=c²

    from the center to a side is 2 inch


    side face altitude is 8.25 inch

  • Pope
    Lv 7
    2 months ago

    What you described would not be a regular pyramid, as only one of its five faces is a regular polygon. However, it could be a right pyramid. In that case, all lateral faces would be isosceles triangles. The distance from the pyramid vertex to the midpoint of one of the base edges would then be one altitude of a lateral face.

    Let the pyramid vertex be V.

    Let the center of the base be O.

    Let M be the midpoint of one base edge.

    Length VM is an altitude of a lateral face.

    OV = 8 in

    OM = 2 in

    ∠VOM = 90°

    VM² = OV² + OM²

    VM² = (8 in)² + (2 in)²

    VM² = 68 in²

    VM = √(68) in ≈ 8.25 in

  • 2 months ago

    A diagram should convince you that there is a right triangle whose hypotenuse is the desired altitude.  The legs of this triangle are 2 and 8 inches.  So, the Pythagorean Theorem gives √(2^2 + 8^2) = √68 = about 8.25 (D).

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