Радни лист за дилатације

Dilations Worksheet offers three progressively challenging worksheets to help users master the concept of dilations in geometry through practice and application.

Или направите интерактивне и персонализоване радне листове помоћу вештачке интелигенције и СтудиБлазе.

Dilations Worksheet – Easy Difficulty

Радни лист за дилатације

Objective: Understand and practice the concept of dilations in geometry.

1. Дефиниција и концепт
– Dilations involve resizing a figure while maintaining its shape. When a figure is dilated from a center point, each point of the figure moves away from or toward that center based on a scale factor.

2. Речник
– Dilation: A transformation that produces an image that is the same shape as the original, but is a different size.
– Scale Factor: The ratio of the lengths of corresponding sides of the dilated figure to the original figure.
– Center of Dilation: The fixed point in the plane about which all points are expanded or contracted.

3. Проблеми са вежбањем
a. Given a triangle with vertices at (1, 2), (3, 4), and (5, 2), find the coordinates of the vertices after a dilation with a scale factor of 2 and center at the origin (0,0).
– Show your calculations:
1. Apply the dilation formula: (x’, y’) = (kx, ky), where k is the scale factor.
2. Calculate new coordinates:
– Vertex A: (2 * 1, 2 * 2) = (2, 4)
– Vertex B: (2 * 3, 2 * 4) = (6, 8)
– Vertex C: (2 * 5, 2 * 2) = (10, 4)

b. If a rectangle has vertices at (0, 0), (2, 0), (2, 3), and (0, 3), what are the new coordinates after a dilation with a scale factor of 0.5 from the center point (1, 1)?
– Show your calculations:
1. Shift points to center (subtracting the center):
– A: (0-1, 0-1) => (-1, -1)
– B: (2-1, 0-1) => (1, -1)
– C: (2-1, 3-1) => (1, 2)
– D: (0-1, 3-1) => (-1, 2)
2. Multiply by scale factor:
– & take original center into account:
– New A: (0.5 * (-1) + 1, 0.5 * (-1) + 1) = (0, 0)
– New B: (0.5 * (1) + 1, 0.5 * (-1) + 1) = (1, 0)
– New C: (0.5 * (1) + 1, 0.5 * (2) + 1) = (1, 2)
– New D: (0.5 * (-1) + 1, 0.5 * (2) + 1) = (0, 2)

4. Питања са кратким одговорима
a. What effect does a scale factor greater than 1 have on the size of an object when dilated?
b. Explain what happens to a shape if a scale factor is between 0 and 1.
c. Describe how the position of the center of dilation affects the transformation.

5. Тачно или Нетачно
a. A dilation with a scale factor of 1 results in a figure that is the same size as the original.
b. A dilation can change the shape of an object.
c. The center of dilation must always be located within the original shape.

6. Проблем изазова
A pentagon has the following vertices: (1, 1), (2, 3), (3,

Dilations Worksheet – Medium Difficulty

Радни лист за дилатације

Objective: To understand and apply the concept of dilations in geometry.

Instructions: Complete the following exercises related to dilations. Show your work where applicable.

1. Definition and Concept:
a. Define a dilation in your own words.
b. Describe how the center of dilation and the scale factor affect the size and position of a figure.

2. Identifying Dilations:
Given triangle ABC with vertices A(2, 3), B(4, 5), and C(6, 1), determine the coordinates of the triangle after a dilation centered at the origin with a scale factor of 2. Show your calculations.

3. Justifying Dilations:
A rectangle with vertices R(1, 2), S(1, 4), T(3, 4), and U(3, 2) is dilated with a scale factor of 0.5 centered at point (2, 3). a. Calculate the coordinates of the new rectangle R’S’T’U’. b. Explain how the dimension of the rectangle changed after dilation.

4. Проблем са речима:
A garden measures 8 feet by 12 feet. It is to be enlarged by a dilation with a scale factor of 1.5. Calculate the new dimensions of the garden. Then find the area of the original garden and the area of the dilated garden. How do the areas compare?

5. Graphing Dilations:
On the coordinate plane provided (attached), graph the triangle with vertices D(1, 1), E(3, 2), and F(2, 4). Dilation is to be centered at point (2, 2) with a scale factor of 3.
a. Plot the original triangle.
b. Using the scale factor, calculate and plot the coordinates of the dilated triangle D’E’F’.
c. Connect the vertices and shade the area of both triangles.

6. Reflection and Analysis:
Compare the characteristics of the original and dilated shapes in terms of:
a. Their angles
b. Their side lengths
c. Their positions on the coordinate plane

7. Проблем изазова:
An isosceles triangle has vertices at A(0, 0), B(4, 0), and C(2, 3). If this triangle is dilated by a scale factor of -1 about the origin, determine the new coordinates of the triangle. Discuss the implications of using a negative scale factor in dilations.

8. Примена у стварном свету:
Discuss a real-world scenario where dilations might occur, such as in photography, architecture, or map scaling. Briefly describe how understanding dilations is beneficial in that context.

Завршетак:
Review your worksheet to ensure all exercises are complete. Check your calculations and explanations for accuracy. Be prepared to discuss your strategies and solutions when prompted.

Dilations Worksheet – Hard Difficulty

Радни лист за дилатације

Objective: Master the skill of dilations in geometry, including understanding scale factors and transformations of figures on a coordinate plane.

Instructions: Answer all questions carefully. Show all your work for full credit.

1. Дефиниција и формула
– Define what a dilation is in geometry.
– Write down the formula for dilating a point (x, y) about the origin with a scale factor k.

2. Примена концепта
– A triangle has vertices A(2, 3), B(4, 5), and C(6, 1).
a) Dilate triangle ABC by a scale factor of 2. Write down the coordinates of the new vertices A’, B’, and C’.
b) Are the sides of triangle A’B’C’ in proportion to the sides of triangle ABC? Justify your answer.

3. Примена у стварном свету
– A photograph is being enlarged using a scale factor of 1.5. If a certain object in the photograph has a width of 4 inches, what will be its width in the enlarged photograph? Show your calculations.

4. Coordinate Plane Transformation
– Perform the following dilations:
a) Dilation of point P(3, -4) with a scale factor of 3.
b) Dilation of point Q(-2, 2) with a scale factor of 0.5.
c) Dilate point R(5, 7) by -2. Discuss the implications of using a negative scale factor.

5. Composite Transformation
– A rectangle has vertices D(1, 1), E(1, 3), F(4, 3), and G(4, 1).
a) First, apply a dilation with a scale factor of 2. Write the coordinates of the new vertices D’, E’, F’, and G’.
b) Next, translate the dilated rectangle 3 units to the right and 2 units up. Provide the coordinates of the translated vertices.

6. Inverse Operations
– If a point X(4, 6) is dilated by a scale factor of 1/3 to obtain point X’, write down the coordinates of X’.
– Conversely, if point X’ is dilated back to point X with a scale factor of 3, what are the coordinates of point X?

7. Проблем изазова
– Consider a figure with vertices H(0, 0), I(1, 2), J(3, 4), and K(5, 0).
a) Dilate the figure using a scale factor of 1/2 and then translate all points 2 units left and 3 units down.
b) Provide the final coordinates of the transformed vertices and calculate the perimeter of the original and the transformed figure to compare values.

КСНУМКС. Критичко размишљање
– Explain how dilations affect the area of figures. If the area of the original shape is A and it is dilated by a scale factor of k, express the area of the new shape in terms of A and k.

9. Рефлексија
– Reflect on how dilations relate to similarity in geometric figures. Provide two key points demonstrating this relationship.

Ensure that all steps are neatly organized and that your answers are clear and concise. Good luck!

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How to use Dilations Worksheet

Dilations worksheet options can vary significantly in complexity and objectives, so it’s essential to consider your current understanding of the topic before selecting one. Assess your foundational knowledge of dilations, focusing on whether you grasp the concepts of scale factor, center of dilation, and how these affect geometric figures. If you’re new to the topic, it may be beneficial to begin with worksheets that offer clear explanations and numerous examples, allowing you to practice basic problems involving simple dilations of shapes. On the other hand, if you feel more confident, consider worksheets that challenge you with composite transformations or applications of dilations in real-world contexts. When tackling the topic, break down the problems into smaller steps—start by identifying the center of dilation and the scale factor, sketch the process if necessary, and work gradually through each question, checking your understanding with each solution. Additionally, don’t hesitate to seek out online resources or instructional videos that can complement your learning and provide different perspectives on the material.

Completing the three worksheets, particularly the Dilations Worksheet, offers numerous benefits that can significantly enhance one’s understanding of geometric concepts and individual skill levels. Engaging with these worksheets allows learners to systematically practice and apply the principles of dilations, helping them visualize and manipulate figures effectively. Through self-assessment embedded in each worksheet, individuals can clearly identify their strengths and areas for improvement, providing a tailored learning experience. This diagnostic approach not only boosts confidence but also fosters a deeper comprehension of geometric transformations. Moreover, as learners track their progress across the three worksheets, they can establish a benchmark for their skills, ensuring they are oriented towards mastery. Thus, the focused practice on the Dilations Worksheet, combined with the insights gained from the other two worksheets, equips students with a solid foundation in geometry and empowers them to tackle more complex mathematical challenges.

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