The capital letter "C" has a horizontal line of symmetry. Imagine printing out a big "C" on a piece of paper. If you fold it horizontally, the top and bottom would match up perfectly.
A B C D E H K M U V W X Y * * * * * What? Most of these letters do not have rotational symmetry and so cannot have rotational AND line symmetry. Or did the meaning of AND change last night? The only upper case letters with both are H, I, O, X
The capital letter H does B, C, D, E, H, I, K, O, and X have a horizontal symmetry line.
%% [a-z] printf("%c",yytext[0] - ('a' - 'A')); %%
"Uppercase" refers to capital letters in the alphabet, such as A, B, C, and so on. These letters are typically used at the beginning of sentences, for proper nouns, or to emphasize certain words. In contrast, "lowercase" letters are the smaller versions, like a, b, c. The distinction between uppercase and lowercase is important in writing and typography.
A=1 B=1 C=1 D=1 E=1 f=0 G=0 and H=2
If you mean , is the letter 'C' symmetrical? Then the answer is YES!!! . It has one line of symmetry . The line of symmetry is an horizontal line through the letter 'C'.
It is C that has a horizontal line of symmetry
Yes C has an horizontal line of symmetry or a 'mirror image'
No.
A letter C has 1 line of symmetry. A line of symmetry is a line that divides a shape into two equal halves that are mirror images of each other. In the case of the letter C, a vertical line passing through the center of the letter would be the line of symmetry.
One
NO! It does not. * * * * * Yes, it does. A horizontal line, at half the height of the letter as in C
One, a horizontal line
Only one.
A B C D E H K M U V W X Y * * * * * What? Most of these letters do not have rotational symmetry and so cannot have rotational AND line symmetry. Or did the meaning of AND change last night? The only upper case letters with both are H, I, O, X
A letter "C" has infinite lines of symmetry. This is because a line of symmetry can be drawn through the center of the curve of the "C," dividing it into two equal halves that are mirror images of each other. The curve of the "C" can be rotated around its center point to create an infinite number of lines of symmetry.
their are many like B; D; C; X; A; O; I.....