Example 1: Convert Decimal to Binary
// program to convert decimal to binary
function convertToBinary(x) {
let bin = 0;
let rem, i = 1, step = 1;
while (x != 0) {
rem = x % 2;
console.log(
`Step ${step++}: ${x}/2, Remainder = ${rem}, Quotient = ${parseInt(x/2)}`
);
x = parseInt(x / 2);
bin = bin + rem * i;
i = i * 10;
}
console.log(`Binary: ${bin}`);
}
// take input
let number = prompt('Enter a decimal number: ');
convertToBinary(number);
Output
Step 1: 9/2, Remainder = 1, Quotient = 4 Step 2: 4/2, Remainder = 0, Quotient = 2 Step 3: 2/2, Remainder = 0, Quotient = 1 Step 4: 1/2, Remainder = 1, Quotient = 0 Binary: 1001
In the above program, the user is prompted to enter a decimal number. The number entered by the user is passed as an argument to the convertToBinary()
function.
The while
loop is used until the number entered by the user becomes 0.
The binary value is calculated by:
bin = bin + rem * i;
Here, rem
is the modulus %
value of the number when divided by 2 and i gives the place value of the binary number.
Example 2: Convert Decimal to Binary Using toString()
// program to convert decimal to binary
// take input
const number = parseInt(prompt('Enter a decimal number: '));
// convert to binary
const result = number.toString(2);
console.log('Binary:' + ' ' + result);
Output
Enter a decimal number: 9 Binary: 1001
In the above program, the user is prompted to enter a number. The parseInt()
method is used to convert a string value to an integer.
The JavaScript built-in method toString([radix])
returns a string value in a specified radix (base). Here, toString(2)
converts the decimal number to binary number.