Question
The result of a translation is _______.
- Triangle
- Pre-image
- Rectangle
- Image
Hint:
The translation is the act of moving a shape or a figure from one location to another. A figure can move in translation up, down, right, left, or anywhere else in the coordinate system. Only the object's position changes during translation; its size stays the same.
The correct answer is: Image
Now as we said that in translation, a point or a figure can move up, down, right, left, or anywhere else in the coordinate system. Any point can be located using a Cartesian coordinate system or coordinate system, and that point can be displayed as an ordered pair (x, y) known as Coordinates.
In cartesian plane there are 4 quadrants:
1st Quadrant
2nd Quadrant
3rd Quadrant
4th Quadrant
The sign patterns are in this way:
I- quadrant (+, +)
II-quadrant (-, +)
III-quadrant (-, -)
IV-quadrant (+, -)
Let's take an example:
(x, y) --> (x - 9, y + 3)
(x, y) --> (x + 2, y + 5)
Pre-image is basically the initial figure before translation occurs. Rectangle and Swuare are the basic shapes that cannot state the translation of every figure.
When any shape is translated a new image is formed. So the answer is an image.
In this question, we used the concept of translation and found out that its an image that is formed after translation. We also understood the concept of the cartesian system and the coordinates. In translation, only the position of the object changes, its size remains the same. Translation is changing of position of the image.
Related Questions to study
What happens if the translation is (x, y) → (x + 2, y – 5)?
In this question, we used the concept of translation and found out the points according to the condition given. We also understood the concept of the cartesian system and the coordinates. In translation, only the position of the object changes, its size remains the same. So for the algebraic representation of (x, y) → (x + 2, y – 5) says that it slides right 2 units and down 5 units.
What happens if the translation is (x, y) → (x + 2, y – 5)?
In this question, we used the concept of translation and found out the points according to the condition given. We also understood the concept of the cartesian system and the coordinates. In translation, only the position of the object changes, its size remains the same. So for the algebraic representation of (x, y) → (x + 2, y – 5) says that it slides right 2 units and down 5 units.
A translation function is defined by the rule (x, y) → (x + 2, y - 5). Which choice will be the image of the point (3, 6) under this translation?
In this question, we used the concept of translation and found out the points according to the condition given. We also understood the concept of the cartesian system and the coordinates. In translation, only the position of the object changes, its size remains the same. The algebraic representation will be: (5, 1).
A translation function is defined by the rule (x, y) → (x + 2, y - 5). Which choice will be the image of the point (3, 6) under this translation?
In this question, we used the concept of translation and found out the points according to the condition given. We also understood the concept of the cartesian system and the coordinates. In translation, only the position of the object changes, its size remains the same. The algebraic representation will be: (5, 1).
A translation of (x, y) → (x + 4, y - 3) is applied to ΔPQR.P (-3, 3), Q(2, 7), R(7, 2). The coordinate of P’ is
In this question, we used the concept of translation and found out the points according to the condition given. We also understood the concept of the cartesian system and the coordinates. In translation, only the position of the object changes, its size remains the same. The algebraic representation of P' will be: (1, 0)
A translation of (x, y) → (x + 4, y - 3) is applied to ΔPQR.P (-3, 3), Q(2, 7), R(7, 2). The coordinate of P’ is
In this question, we used the concept of translation and found out the points according to the condition given. We also understood the concept of the cartesian system and the coordinates. In translation, only the position of the object changes, its size remains the same. The algebraic representation of P' will be: (1, 0)
A translation maps the origin to the point (-2, 4). What is the image of point (-4, 2)
under this same translation?
In this question, we used the concept of translation and found out the points according to the condition given. We also understood the concept of the cartesian system and the coordinates. In translation, only the position of the object changes, and its size remains the same. So the algebraic representation will be: (-6,6).
A translation maps the origin to the point (-2, 4). What is the image of point (-4, 2)
under this same translation?
In this question, we used the concept of translation and found out the points according to the condition given. We also understood the concept of the cartesian system and the coordinates. In translation, only the position of the object changes, and its size remains the same. So the algebraic representation will be: (-6,6).
The translation T (3, 2) move point (-4, -7) to the point
(-4+3 , -7+2)
(-1 , -5)
The translation T (3, 2) move point (-4, -7) to the point
(-4+3 , -7+2)
(-1 , -5)
In translation, image
In this question, we used the concept of translation and found out the points according to the condition given. We also understood the concept of the cartesian system and the coordinates. In translation, only the position of the object changes, its size remains the same. In translation, image Slides.
In translation, image
In this question, we used the concept of translation and found out the points according to the condition given. We also understood the concept of the cartesian system and the coordinates. In translation, only the position of the object changes, its size remains the same. In translation, image Slides.
A translation is a transformation
In this question, we used the concept of translation and found out the points according to the condition given. We also understood the concept of the cartesian system and the coordinates. In translation, only the position of the object changes, its size remains the same. A translation is a transformation that moves the same distance in the same direction.
A translation is a transformation
In this question, we used the concept of translation and found out the points according to the condition given. We also understood the concept of the cartesian system and the coordinates. In translation, only the position of the object changes, its size remains the same. A translation is a transformation that moves the same distance in the same direction.
Translation is possible
In this question, we used the concept of translation and found out the points according to the condition given. We also understood the concept of the cartesian system and the coordinates. In translation, only the position of the object changes, its size remains the same. Translation is possible both horizontally and vertically.
Translation is possible
In this question, we used the concept of translation and found out the points according to the condition given. We also understood the concept of the cartesian system and the coordinates. In translation, only the position of the object changes, its size remains the same. Translation is possible both horizontally and vertically.
Which translation rule is applicable for the image below?
In this question, we used the concept of translation and found out the points according to the condition given. We also understood the concept of the cartesian system and the coordinates. In translation, only the position of the object changes, its size remains the same. Translation is 4 units left and 2 units up.
Which translation rule is applicable for the image below?
In this question, we used the concept of translation and found out the points according to the condition given. We also understood the concept of the cartesian system and the coordinates. In translation, only the position of the object changes, its size remains the same. Translation is 4 units left and 2 units up.
Which translation rule is applicable for the image below?
In this question, we used the concept of translation and found out the points according to the condition given. We also understood the concept of the cartesian system and the coordinates. In translation, only the position of the object changes, its size remains the same. Translation is 6 units right.
Which translation rule is applicable for the image below?
In this question, we used the concept of translation and found out the points according to the condition given. We also understood the concept of the cartesian system and the coordinates. In translation, only the position of the object changes, its size remains the same. Translation is 6 units right.
What is the pre-image of the points (12, 7) if it has moved 4 units to the right and 3 units up?
In this question, we used the concept of translation and found out the points according to the condition given. We also understood the concept of the cartesian system and the coordinates. In translation, only the position of the object changes, its size remains the same. So the algebraic representation will be: (12,7) → (8,4).
What is the pre-image of the points (12, 7) if it has moved 4 units to the right and 3 units up?
In this question, we used the concept of translation and found out the points according to the condition given. We also understood the concept of the cartesian system and the coordinates. In translation, only the position of the object changes, its size remains the same. So the algebraic representation will be: (12,7) → (8,4).
An algebraic translation when an image is changing its position 4 units to the left
In this question, we used the concept of translation and found out the points according to the condition given. We also understood the concept of the cartesian system and the coordinates. In translation, only the position of the object changes, its size remains the same. So the algebraic representation will be: (x, y) → (x - 4, y).
An algebraic translation when an image is changing its position 4 units to the left
In this question, we used the concept of translation and found out the points according to the condition given. We also understood the concept of the cartesian system and the coordinates. In translation, only the position of the object changes, its size remains the same. So the algebraic representation will be: (x, y) → (x - 4, y).
An algebraic representation of translation of a point 6 units to the right and 3 units up
In this question, we used the concept of translation and found out the points according to the condition given. We also understood the concept of the cartesian system and the coordinates. In translation, only the position of the object changes, its size remains the same.
An algebraic representation of translation of a point 6 units to the right and 3 units up
In this question, we used the concept of translation and found out the points according to the condition given. We also understood the concept of the cartesian system and the coordinates. In translation, only the position of the object changes, its size remains the same.
The image of the point (1, 2) after moving 5 units right is
In this question, we used the concept of translation and found out the points according to the condition given. We also understood the concept of the cartesian system and the coordinates. In translation, only the position of the object changes, its size remains the same. The algebraic representation is: (1,2) → (6,2).
The image of the point (1, 2) after moving 5 units right is
In this question, we used the concept of translation and found out the points according to the condition given. We also understood the concept of the cartesian system and the coordinates. In translation, only the position of the object changes, its size remains the same. The algebraic representation is: (1,2) → (6,2).
The polygon before translation is
In this question, we used the concept of translation and found out the points according to the condition given. We also understood the concept of the cartesian system and the coordinates. In translation, only the position of the object changes, and its size remains the same. The polygon before translation is Pre-image.
The polygon before translation is
In this question, we used the concept of translation and found out the points according to the condition given. We also understood the concept of the cartesian system and the coordinates. In translation, only the position of the object changes, and its size remains the same. The polygon before translation is Pre-image.
