Understanding Dilations and Similarity

It determines the color of the dilated figure.

It decides whether points are pushed away or pulled towards the center.

It changes the shape of the figure.

It affects the temperature of the figure.

To create a colorful pattern.

To confuse the students.

To help track the scale factor and ensure accurate measurements.

To make the paper look neat.

By using a color chart.

By dividing the dilated length by the original length.

By measuring the temperature of the paper.

By counting the number of lines on the paper.

They suggest that the scale factor is incorrect.

They confirm that the segments are proportional and the angles are preserved.

They show that the dilated segments are not proportional.

They indicate that the dilation was unsuccessful.

They are always shorter than the original segments.

They are parallel and proportional to the original segments.

They are always perpendicular.

They are always longer than the original segments.

They remain unchanged.

They are doubled.

They are halved.

They become negative.

The dilated segment is unrelated to the original segment.

The dilated segment is always twice as long.

The dilated segment is always half as long.

The dilated segment is the scale factor times the original segment.

Dilations preserve angle measures and create proportional segments.

Dilations make figures disappear.

Dilations only affect the color of figures.

Dilations do not affect the shape of figures.

By multiplying the two lengths.

By dividing the dilated length by the original length.

By subtracting the original length from the dilated length.

By adding the two lengths.

It helps in coloring geometric figures.

It is used to calculate the area of circles.

It is crucial for understanding how dilations affect shapes and sizes.

It is used to measure the weight of geometric figures.