High School Geometry
... Given a rectangle, parallelogram, trapezoid, or regular polygon, describe the rotations and reflections that carry it onto itself. (MA10‐GR.HS‐S.4‐GLE.1‐EO.a.v) (CCSS: G‐CO.3) PARCC Calculator neutral Use geometric descriptions of rigid motions to transform figures and to predict the ...
... Given a rectangle, parallelogram, trapezoid, or regular polygon, describe the rotations and reflections that carry it onto itself. (MA10‐GR.HS‐S.4‐GLE.1‐EO.a.v) (CCSS: G‐CO.3) PARCC Calculator neutral Use geometric descriptions of rigid motions to transform figures and to predict the ...
8-4: Angles of Elevation and Depression
... and Depression Expectations: 1) G1.3.1: Define and use sine, cosine and tangent ratios to solve problems using trigonometric ratios in right triangles. 2) Determine the exact values of sine, cosine and tangent for various angle measures. ...
... and Depression Expectations: 1) G1.3.1: Define and use sine, cosine and tangent ratios to solve problems using trigonometric ratios in right triangles. 2) Determine the exact values of sine, cosine and tangent for various angle measures. ...
7-5 & 7-6 Sine, Cosine, and Tangent Ratios
... Date: 2/7 Aim: To use trigonometric ratios for indirect measurements of right triangles. ...
... Date: 2/7 Aim: To use trigonometric ratios for indirect measurements of right triangles. ...
Ratios in Right Triangles
... behind a vital organ. In order to prevent damage to the organ, the doctor must angle the rays to the tumor. If the tumor is 6.3 cm below the skin and the rays enter the body 9.8 cm to the right of the tumor, find the angle at which the rays should enter the body to hit the tumor. ...
... behind a vital organ. In order to prevent damage to the organ, the doctor must angle the rays to the tumor. If the tumor is 6.3 cm below the skin and the rays enter the body 9.8 cm to the right of the tumor, find the angle at which the rays should enter the body to hit the tumor. ...
