How many numbers can be represented by 2 bits?
4, which is equal to 2 to the power 2.In general, with "n" bits, you can have "2 to the power n" different states (or represent that many different numbers).
Eight. Each bit is 2 possibilities, and 2^3 (2x2x2) is 8. The numbers would range from 0 to 7.
To calculate number of things that can be represented by a bit we use formula 2^n so for four bits it will 2^4 = 2*2*2*2 = 16
32 values. 2^5=32
To find out how many different values can represented by a certain number of bits, we can use the following formula 2n-1 and that is because the first number is always a zero. Based on that 6 bits = 26- 1= 64-1=63 7 bits= 27-1= 127 8 bits= 28-1=255 10 bits= 210-1=1023 # of bits 1=1 2=3 3=7 4=15 5=31 6=63 7=127 8=255 9=511 10=1023
2 Bytes = 16 Bits Since a Bit can have only 2 Values Therefore 2 Bytes can represent 2^16 = 65536 Unique values
64 different whole numbers can be written with 6 bits.
It is 127 = 2^7 - 1
My initial guess is as follows: binary code will render 2 possible digits, either 0 or 1. If there are 32 digits with two possible outcomes per digit then you will find the answer by calculating 2 to the 32nd power. The answer I got was 4294967296 seconds. Edit: The maximum number which can be represented by a binary string is always 2^n where n is the number of bits in the string.
I assume you mean "stored". In each case, a total of 2 to the power 13 different numbers can be stored.
The answer depends on how many numbers are on the circle and if they are all represented by the same areas.
Integers are represented as a string of 1's and 0's. The bits (a single one or zero) are weighted by powers of two, so the one on the far right has value 20 or 1, the second is 21 or 2, third is 22 or 4, 4th is 8, 5th is 16, etc. An integer in a modern computer is typically 32 bits long, or 4 bytes (a byte is 8 bits). Negative numbers are… Read More
There are infinitely many rational numbers and irrational numbers but the cardinality of irrationals is larger by an order of magnitude. If the cardinality of the countably infinite rational numbers is represented by a, then the cardinality of irrationals is 2^a.
At least 8 bits are needed to represent the number 231. 231 ÷ 2 = 115 r 1 115 ÷ 2 = 57 r 1 57 ÷ 2 = 28 r 1 28 ÷ 2 = 14 r 0 14 ÷ 2 = 7 r 0 7 ÷ 2 = 3 r 1 3 ÷ 2 = 1 r 1 1 ÷ 2 = 0 r 1 → 231 is 1110 0111 in binary and… Read More
Because 1 byte is defined [now] to be 8 bits. Digital computers use binary memory locations, ie each memory location can hold one of two values: 0 or 1, as each state is easily representable by whether an electrical charge/voltage exists or not. However, using a BInary digiT, or bit for short, to represent data is not very useful as there are only the two possible data items: 0 and 1. However, by combining more… Read More
11b which is 1*2 + 1*1 = 3 would be for two bits. But a byte is 8 bits, so 2 bytes is 16 bits. The largest binary number is [2^16 - 1], which is 65535 (base ten)
Each bit can be on or off giving 2 possible states, and for each bit the other bits can be in either state; so there are 2 x 2 x 2 x 2 x 2 x 2 = 26 = 64 possible numbers (which can either represent 0 to 63 or -32 to +31 using signed numbers).
In any sum a + b = c, the numbers represented by a and b are called addends or summands. Occasionally, the number represented by a is called an augend.
Floating point numbers are typically stored as numbers in scientific notation, but in base 2. A certain number of bits represent the mantissa, other bits represent the exponent. - This is a highly simplified explanation; there are several complications in the IEEE floating point format (or other similar formats).
two thousand bits No, there are 8 bits in a byte.
I byte = 8 bits 2 bytes = 16 bits
The top of the fraction tells you how many bits of a whole one are represented, the bottom says how many equial parts the whole one is cut into. eg. 1/2 is .... 1 part of a apple which has been cut into 2 equial parts....
There are 4 bits in a half dollar. 2 bits is a quarter. 8 bits make a dollar.
Two bytes is 16 bits.
1 byte equals 8 bits. Therefore 2 bytes equals 16 bits.
The term used to describe smallest possible element in computer memory is byte. Some people may say bit. But logically, that's incorrect. Each character is represented by 8 bits or 1 byte. In Unicode it is represented by 16 bits or 2 bytes.
1 byte = 8 bits 1 kilobyte = 1024 bytes = 8192 bits 2 kilobytes = 2048 bytes = 16384 bits
In Super Mario Galaxy 2 Player two can stun and freeze most enemies, can collect star bits and coins, can shoot star bits, and can shatter those glass casings that cover star bits and coins. The Luma can also roll dice. In Super Mario Galaxy Player two is not represented by a Luma, but is simply represented by a star-shaped cursor. He or she can freeze enemies and make Mario jump. He or she can… Read More
the answer should be 2 billion ! because 1 gb is 1billion bits
How many natural numbers between 1 and 10 can be repesented as product of two or more prime factors?
Between 1 and 10, 2, 3, 5 and 7 are already prime numbers. 4 (2x2), 6 (2x3), 8 (2x2x2) and 9 (3x3) can be represented as a product of prime factors, i.e. four natural numbers between 1 and 10 can be represented as such.
Where the a^b means a raised to the b power: 1111 = 2^3 + 2^2 + 2^1 + 2^0 = 8 + 4 + 2 + 1 = 15
4 bits=1 nybble 2 nybbles=1 byte 8 bits in a byte
What is the maximum numbers of memory locations bytes that can be accessed by an address bus that is A bits?
2 the power of A
1/2, 5/8, and 6/7 are some. Rational numbers are numbers that can be represented as fractions, so there are practically unlimited numbers of them.
2 bytes=16 bits make a word
2 bytes 8 bits in a byte
Natural numbers are the counting numbers: 1, 2, 3, 4, ...; some definitions also include 0 making the natural numbers the non-negative integers. Irrational numbers are those numbers which cannot be represented as a rational number, that is cannot be represented as a proper, or improper (top heavy), fraction with one integer over another. For example √2 and π are both irrational numbers whereas 1/2, 7/3 and 21 (= 21/1) are all rational numbers.
- They are 48 binary bits in length. - They are generally represented in hexadecimal format - They are considered physical addresses
2 bits equal 25 cents. So 6 bits would be 75 cents.
2046 Breakdown: 11111111.11111111.11111000.00000000 /21 - 21 bits in network address represented by ones in binary address above. Leaves 2^11th power host addresses left (the zeros to the right). Equals 2048 host addresses minus the two reserved addresses = 2046
Yes. In fact, all positive integers (except primes) can be represented as the product of prime numbers. In this case, 224 = 2 * 2 * 2 * 2 * 2 * 7
A color image uses 32 bits to represent a pixel.what is the maximum number of different colours that can be represented?
maximum number of different colours is 2 power 32
There are 2 colors in bits per pixel - 4 colors in 2 bits per pixel - 16 colors in 4 bits per pixel and similarly this sequence continuous going on.
2 MB per second equals 16,777,215.9 bits per second.
2 GB = 2,000,000,000 (2 billion) bytes * 8 = 16,000,000,000 (16 billion) bits.
There are no irrational numbers in the value -5.72. All of the components of the value are represented by rational numbers. An irrational number is any number that cannot be represented by a fraction a/b where a and b are integers. -5.72 itself is rational as it can be represented by -572 / 100. The digits of the value are also rational as they can be represented as -5/1, 7/1 and 2/1, respectively.
rational numbers can be represented as a ratio of integers such as 1/4 and irrational numbers can NOT. Square root of 2 is an irrational number.
A rational number is one that can be represented as an integer or a fraction with an integer over an integer. An irrational number cannot be represented using integers. Examples of rational numbers: 2, 100, 1/2, 3/7, 22/7 Examples of irrational numbers: π, e, √2
Java's bitwise operators operate on individual bits of integer (int and long) values. If an operand is shorter than an int, it is promoted to int before doing the operations. It helps to know how integers are represented in binary. For example the decimal number 3 is represented as 11 in binary and the decimal number 5 is represented as 101 in binary. Negative integers are store in two's complement form. For example, -4 is… Read More
The number 2 in 8 bits is represented as 00000010 The 1's complement is 11111101 Add 1 to this to get 2's complement which is 11111110
There are 6 atoms of oxygen represented by this.