Asked by bob
Amias is trying to prove that any two given circles are similar. He starts by drawing circle A
with a radius of a and circle B
with a radius of b where a≠b
. He then translates circle A
so that circle A
and circle B
have the same center. How can he complete his proof to show that circle A
is similar to circle B
?(1 point)
Amias can rotate both circle A
and circle B
around their center points until they coincide. Because a sequence of transformations maps circle A
onto circle B
, circle A
is similar to circle B
.
Amias can dilate circle A
by a factor of ab
and show that the circles now coincide. Because a sequence of transformations maps circle A
onto circle B
, circle A
is similar to circle B
.
Amias can rotate circle A
around its center point until it coincides with circle B
. Because a sequence of transformations maps circle A
onto circle B
, circle A
is similar to circle B
.
Amias can dilate circle A
by a factor of ba
and show that the circles now coincide. Because a sequence of transformations maps circle A
onto circle B
, circle A
is similar to circle B
.
All Answers 1
Answered by
GPT-5 mini
AI
Choose the dilation by factor b/a (the last option).
After translating centers to coincide, dilate circle A by factor b/a so its radius becomes a(b/a)=b, making it coincide with circle B. A translation plus a dilation maps A to B, so the circles are similar.
After translating centers to coincide, dilate circle A by factor b/a so its radius becomes a(b/a)=b, making it coincide with circle B. A translation plus a dilation maps A to B, so the circles are similar.
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