In the following figures, the figure that is not symmetric with respect to any line is:
The number of lines of symmetry in a scalene triangle is
The number of lines of symmetry in a circle is
Which of the following letters does not have the vertical line of symmetry?
Which of the following letters have both horizontal and vertical lines of symmetry?
Which of the following letters does not have any line of symmetry?
Which of the following letters has only one line of symmetry?
The instrument to measure an angle is a
The instrument to draw a circle is
Number of set squares in the geometry box is
The number of lines of symmetry in a ruler is
The number of lines of symmetry in a divider is
The number of lines of symmetry in compasses is
The number of lines of symmetry in a protractor is
The number of lines of symmetry in a 45° - 45° - 90° set-square is
The number of lines of symmetry in a 30° - 60°- 90° set square is
The instrument in the geometry box having the shape of a triangle is called a
The distance of the image of a point (or an object) from the line of symmetry (mirror) is ________ as that of the point (object) from the line (mirror).
The number of lines of symmetry in a picture of Taj Mahal is _______.
The number of lines of symmetry in a rectangle and a rhombus are ______ (equal/unequal).
The number of lines of symmetry in a rectangle and a square are _______ (equal/unequal).
If a line segment of length 5cm is reflected in a line of symmetry (mirror), then its reflection (image) is a ______ of length _____.
If an angle of measure 80° is reflected in a line of symmetry, then the reflection is an _____ of measure_____.
The image of a point lying on a line l with respect to the line of symmetry l lies on ______.
In Fig. 9.10, if B is the image of the point A with respect to the line l and P is any point lying on l, then the lengths of line segments PA and PB are ______.
The number of lines of symmetry in Fig. 9.11 is _____.
The common properties in the two set-squares of a geometry box are that they have a ______ angle and they are of the shape of a _____.
The digits having only two lines of symmetry are ____ and _____.
The digit having only one line of symmetry is_____.
The number of digits having no line of symmetry is _____.
The number of capital letters of the English alphabets having only vertical line of symmetry is ____.
The number of capital letters of the English alphabets having only horizontal line of symmetry is ______.
The number of capital letters of the English alphabets having both horizontal and vertical lines of symmetry is ____.
The number of capital letters of the English alphabets having no line of symmetry is _____.
The line of symmetry of a line segment is the _______ bisector of the line segment.
The number of lines of symmetry in a regular hexagon is ______.
The number of lines of symmetry in a regular polygon of n sides is _____.
A protractor has one line/lines of symmetry.
A 30° - 60° - 90° set-square has ______ line/lines of symmetry.
A 45° - 45° - 90° set-square has ______ line/lines of symmetry.
A rhombus is symmetrical about ______ .
A rectangle is symmetrical about the lines joining the ______of the opposite sides.
A right triangle can have at most one line of symmetry.
A kite has two lines of symmetry.
A parallelogram has no line of symmetry.
If an isosceles triangle has more than one line of symmetry, then it need not be an equilateral triangle.
If a rectangle has more than two lines of symmetry, then it must be a square.
With ruler and compasses, we can bisect any given line segment.
Only one perpendicular bisector can be drawn to a given line segment.
Two perpendiculars can be drawn to a given line from a point not lying on it.
With a given centre and a given radius, only one circle can be drawn.
Using only the two set-squares of the geometry box, an angle of 40o can be drawn.
Using only the two set-squares of the geometry box, an angle of 15° can be drawn.
If an isosceles triangle has more than one line of symmetry, then it must be an equilateral triangle.
A square and a rectangle have the same number of lines of symmetry.
A circle has only 16 lines of symmetry.
A 45° - 45° - 90° set-square and a protractor have the same number of lines of symmetry.
It is possible to draw two bisectors of a given angle.
A regular octagon has 10 lines of symmetry.
Infinitely many perpendiculars can be drawn to a given ray.
