Triangles BDC, CBD, CDB, DBC and DCB.
An isosceles triangle has two sides of equal length.
3, 5, 5 does not make a right angle triangle but they can make an isosceles triangle Correct. Try 3,4,5. That will be a right triangle. 3x3 plus 4x4 = 5x5
A square -- has 4 sides a triangle -- has 3 sides A pentagon -- has 5 sides A circle -- has one side
That will depend on other values of the triangle because a triangle has 3 sides and 3 interior angles that add up to 180 degrees
Yes, it is.
1111 can't be used for Binary Coded Decimal (BCD) because 1111=15 which is made of 2 digits 1 and 5. In BCD a 4-digit binary number is used for every decimal digit. ex. 1111 is incorrect 1 = 0001 5 = 0101 Answer: 0001 0101
The 74184 is a 5-bit BCD to 8-bit binary converter.
Triangle, rectangle, pentagon, hexagon, octagon. Though, there are much more names of polygons.
There cannot be a "medium triangle with 5 sides". A triangle can have 3 sides and only 3 sides. Any other number of sides and it is not a triangle.
5^2 = 3^ + 4^2 Hence it is a right triangle, the other two are acute angles One of the acute angles has its sine as 3/5 The other acute angle has its sine as 4/5
An isosceles triangle has two sides of equal length.
Binary Coded Decimal (BCD) is a set of coding systems for storing decimal digits in binary code. There are several such codes, I will give examples of 3: straight BCD, XS3 BCD, and 2 of 5 BCD. Straight BCD uses the actual binary value of the decimal digit value: 0 = 0000 1 = 0001 2 = 0010 3 = 0011 4 = 0100 5 = 0101 6 = 0110 7 = 0111 8 = 1000 9 = 1001 XS3 BCD adds 3 to the binary value of the decimal digit value to make the code: 0 = 0011 1 = 0100 2 = 0101 3 = 0110 4 = 0111 5 = 1000 6 = 1001 7 = 1010 8 = 1011 9 = 1100 2 of 5 BCD uses a 5 bit code where only 2 bits can be on in a decimal digit's code: 0 = 00011 1 = 11000 2 = 10100 3 = 10010 4 = 10001 5 = 01100 6 = 01010 7 = 01001 8 = 00110 9 = 00101
Example Binary 00111000 Convert to Decimal 56 Convert to BCD by using groups of four binary numbers for each digit 5 6 0101 0110
The formula for area of a triangle is: A = H x B / 2 or Given a triangle with a height of 5 and a base of 3 then A = 5 x 3 / 2 A = 15/2 A = 7.5 In other words a Triangle has ½ the area of a square with the same two dimensions.
A BCD to Gray code converter is a digital circuit that converts Binary Coded Decimal (BCD) input to Gray code output. Gray code is a binary numeral system where two consecutive values differ in only one bit. The converter is often used in digital systems where minimizing errors during digital-to-analog conversions is critical.
The names of polygons are: 3: triangle 4: quadrilateral 5: pentagon 6: hexagon 7: heptagon 8: octagon 9: nonagon or enneagon 10: decagon There are, of course, many other shapes with curved sides.
A BCD digit only uses the binary patterns that represent decimal numbers, ie 0000 - 1001; this requires 4 bits (1 nybble) so there can be 2 BCD digits to a byte. Therefore in 3 bytes there can be 3 × 2 = 6 BCD digits. The largest BCD digit is 1001 = 9. Assuming non-signed, the maximum 3 byte BCD number is 999,999.