On my calculator when I do 18/7 I get 2.5714285714285714285714285714286. From my super limited Math skills 2 is the quotient and .5714285714285714285714285714286 is the remainder.
How can I model this in JavaScript?
Thanks!
var floatingPointPart = (18/7) % 1;
var integerPart = Math.floor(18/7);
Math.floor
will bring it towards the negative end, so -3.3
becomes -4
, unlike Math.trunc
, which brings it to -3
(dropping decimals as expected for a truncation). To be fair the answer was made before ES6 became standard in 2015... See more of Math.trunc here: tc39.es/ecma262/multipage/numbers-and-dates.html#sec-math.trunc
Math.floor has the problem of rounding of the result to wrong direction in case of negative number it would be better to use bitwise operation to obtain interger quotients.
var quot = ~~(num/num1)
Hopefully this works for you!
var rawQuotient = 18/7;
var remainder = rawQuotient % 1;
var quotient = rawQuotient - remainder;
In most mathematics, there's no real need for distinction between the fractional portion and the whole portion, especially given that the whole thing can be expressed as a fraction (18/7ths), as a real number, or as a mix of integers and fractions (2 and 4/7ths).
When you get into programming or engineering, or some other derivative, you have definite uses for the separation; but the quotient is really the whole thing, integer and fraction, however you choose to represent that.
We can use simple mathematics to get answer using only /
& %
operator.
Consider 'num1' as first value & 'num2' as second value. Then :
var Quotient = (num1 - (num1 % num2)) / num2;
var FloatingPoint = (num1 % num2) / num2;
2 is the quotient (or integer part of the result), 4 is the remainder, and 4/7 is the floating point part of the result, which the OP is requesting.
var result = (18/7);
var integerPart = Math.floor(result);
var floatingPointPart = result - integerPart;
integerPart and floatingPointPart are the requested values.
The quotient and remainder can be found using integer division and the modulo (%
) operator respectively.
let quotient = 18n / 7n;
let remainder = 18 % 7;
console.log(`${quotient}, ${remainder}`);
Floating point numbers can be converted to big integers:
let dividend = 18;
let divisor = 7;
let quotient = BigInt(dividend) / BigInt(divisor);
let remainder = dividend % divisor;
console.log(`${quotient}, ${remainder}`);
Alternatively, use Math.trunc
:
let quotient = Math.trunc(18 / 7);
let remainder = 18 % 7;
console.log(`${quotient}, ${remainder}`);
In the decimal number 2.5714285714285716
,
the quotient, which also is the whole part, is 2
and the decimal/fractional part is 0.5714285714285716
or 0.5714285714285716
but actually, the remainder is 4.000000000000002 or 4
let decimal = 18 / 7;
let quotient = ~~decimal;
let dec_remainder = decimal - quotient;
let dec_remainder0 = decimal % 1;
let remainder = dec_remainder * 7;
let remainder0 = 18 % 7;
document.body.innerHTML = "In the decimal number "+decimal+",<br/>
the quotient, which also is the whole part, is "+quotient+"<br/>
and the decimal/fractional part is "+dec_remainder+ " or " + dec_remainder0 + "<br/>
but actually, the remainder is "+remainder+" or "+remainder0 ;
<!DOCTYPE html>
<html>
<body>
</body>
</html>
You can determine the quotient in several ways.
Actually, 2 is the quotient and 4/18 is the remainder.
Math.divideby= function(d, dby){
var q= Math.floor(d/dby), r= d-(q*dby);
return r== 0? q:q+' and '+r+'/'+d;
}
Math.divideby(18,7)
/* returned value: (String) */
2 and 4/18
4
?18%7 === 4
.fractional part of the quotient
as opposed to theinteger part of the quotient
. Theremainder
value of4
comes from7 * .5714285714285714285714285714286
if you were wondering.