Well the answer is: You have to know the side length first and then................... Well I'll type it later
Good luck.
Teacher: Ms.L
46
It is actually "CORRESPONDING"..
To find the scale factor of two triangles, look first for one pair of corresponding sides--one side from the smaller triangle and the corresponding side from the larger triangle. Divide the larger side length by the smaller side length, and that quotient is your scale factor.
Find the midpoint of each side. Draw lines between them. You get 4 identical triangles, similar to the original.
you can't, because the Pythagorean theorem is for right triangles and the triangles formed by the diagonal of a parallelogram are not right triangles.
Triangles are congruent if all three sides in one triangle are congruent to the corresponding sides in the other.When two triangles have corresponding sides with identical ratios, the triangles are similar.Of course if triangles are congruent, they are also similar.
In order to determine if two or more triangles have the same shape, you need to determine if the corresponding vertices and angles.You will need to know or be able to calculate the measurements of the angles to determine a one-to-one correspondence.
If two objects have the same shape, they are called "similar." When two figures are similar, the ratios of the lengths of their corresponding sides are equal. To determine if the triangles shown are similar, compare their corresponding sides.
You can find the __________ parts of two congruent triangles by aligning them perfectly on top of each other. Answer: corresponding
Given that ΔHKM~ΔRST, name the corresponding congruent angles and write three proportions.
Select any one of the vertices and draw all the diagonals from that vertex. This will divide the polygon (with n sides) into n-2 triangles. Use the coordinates of the vertices of each triangle to calculate its area, and then add the areas of these triangles together.
46
It is actually "CORRESPONDING"..
As many as she wants.
sorry but all i can find is 4 faces 6 edges and 4vertices's :(
you measure both of their angles and see if they are the same i think.
Infinitely many. Having found one triangle, you can find infinitely many similar triangles.