Open In App

Convert Decimal to Quinary

Improve
Improve
Like Article
Like
Save
Share
Report

The numeral procedure applies distinct types of numerals such as prime numerals, odd numerals, even numerals, rational numerals, whole numerals, etc. These numerals can be represented in the state of realities as well as terms properly. For instance, the integers like 20 and 25 illustrated in the formation of sculptures can also be documented as twenty and twenty-five. A numeral method or numeral system is described as a simple/easy method to display numerals and sculptures. It is a unique form of displaying numerals in mathematics and arithmetic records.

Number 

Numbers are used in different arithmetic matters suitable to get different arithmetic operating like addition, subtraction, multiplication, etc., which are suitable in everyday lives for the reason of analysis. The value of a numeral is defined by the digit, its place value in the numeral, and the perspective of the number system. Numerals usually are also known as integers are the numerical values utilized for counting, dimensions, representing, and computing elementary portions. Numerals are the formations used for the reason of counting or estimating numerals. It is formed by numerals such as 3, 6, 89, etc.

Types Of Numbers

There are distinct kinds of numerals. Numerals are determined among distinct groups in numeral methods established on the connection they convey and the attributes they remember. For example, the whole numerals effect from 0 and end at infinity. Let’s understand about these styles in more attributes,

  • Natural numbers: Natural numbers are also understood as positive numerals which measure from 1 to infinity. The set of natural numerals is demonstrated by ‘N’. It is the integer we usually use for counting. The set of natural numbers can be displayed as N = 5, 6, 7, 8,…
  • Whole numbers: Whole numbers are also understood as positive numerals it is identical to natural number but they also contain zero, which contain 0 to infinity. Whole numerals do not include fractions or decimals. The set of whole numbers is represented by ‘W’. The gathering can be indicated as W = 0, 1, 2, 3, 4, 5,…
  • Integers: Integers are the set of consistencies interested in all the favourable counting integers, zero as well as all negative add-up integers that measure from unfavourable infinity to favourable infinity. The group doesn’t implicate fractions and decimals. The set of integers is defined by ‘Z’. The set of integers can be offered as Z = …,-5, -4, -3, -2, -1, 0, 1, 2, 3, 4, 5,…
  • Decimal numbers: Any integer matter that includes a decimal fact is a decimal numeral. It can be defined as 2.5, 0.567, etc.
  • The real number: Real numbers are the set of integers that do not affect any fictitious matter. It concerns all the favourable integers, unfavourable integers, fractions, and decimal values. It is typically defined by ‘R‘.
  • Complex number: Complex numbers are a set of integers that apply to imaginary numerals. It can be defined as x + y where “x” and “y” are real numbers. It is directed by ‘C’.
  • Rational numbers: Rational numerals are the integers that can be defined as the ratio of two integers. It concerns all the digits and can be described in the declaration of fractions or decimals. It is defined by ‘Q’. It can be noted in decimals and have ongoing non-repeating numerals after the decimal point. It is demonstrated by ‘P’.

How to convert Decimal to Quinary

The decimal integer method is the formal method for representing integer and non-integer numerals. It is the attachment to non-integer numerals of the Hindu-Arabic integer method. For report numerals, the decimal system utilizes ten decimal numerals, a decimal spot, and, for negative numerals, a minus sign “-“. The decimal integers are 0, 1, 2, 3, 4, 5, 6, 7, 8, 9; the decimal divider is the drop”.” in many nations.

Quinary is an integer method with five as the base. A likely origination of a quinary method is that there are five fingers on either hand. In the quinary place method, five integers, from 0 to 4, are used to describe any natural numeral. According to this process, five is reported as 10, twenty-five is written as 100, and sixty is written as 220.

Formula

Observe these stages to transform a decimal number into the quinary format:

Step 1: Divide the decimal number by 5.

Step 2: Get the integer quotient for the next iteration (if the numeral will not separate equally by 5, then round down the outcome to the closest whole number).

Step 3: Maintain the notice of the remainder, it should be between 0 and 4.

Step 4: Reprise the stages until the quotient is equal to 0.

Note out all the remainders, from bottom to top.

For instance, if the allocated decimal number is 756:

Division Quotient Remainder
756/5 151 1
151/5 30 1
30/5 6 0
6/5 1 1
1/5 0 1

Then the quinary solution is: 11011

Sample Problems

Problem 1: Divide the number 345 repeatedly by 5 until the quotient becomes 0.

Solution:

When 345 is divided by 5, the quotient is 69 and the remainder is 0.

When 69 is divided by 5, the quotient is 13 and the remainder is 4.

When 13 is divided by 5, the quotient is 2 and the remainder is 3.

When 2 is divided by 5, the quotient is 0 and the remainder is 2.

Write the remainders from bottom to top.

(345)10 = (2340)5

Problem 2: Divide the number 150 repeatedly by 5 until the quotient becomes 0.

Solution:

When 150 is divided by 5, the quotient is 30 and the remainder is 0.

When 30 is divided by 5, the quotient is 6 and the remainder is 0.

When 6 is divided by 5, the quotient is 1 and the remainder is 1.

When 1 is divided by 5, the quotient is 0 and the remainder is 1.

Write the remainders from bottom to top.

(150)10 = (1100)5

Problem 3: Divide the number 756 repeatedly by 5 until the quotient becomes 0.

Solution:

When 756 is divided by 5, the quotient is 151 and the remainder is 1.

When 151 is divided by 5, the quotient is 30 and the remainder is 1.

When 30 is divided by 5, the quotient is 6 and the remainder is 0.

When 6 is divided by 5, the quotient is 1 and the remainder is 1.

When 1 is divided by 5, the quotient is 0 and the remainder is 1.

Write the remainders from bottom to top.

(756)10 = (11011)5

Problem 4: Divide the number 985 repeatedly by 5 until the quotient becomes 0.

Solution:

When 985 is divided by 5, the quotient is 197 and the remainder is 0.

When 197 is divided by 5, the quotient is 39 and the remainder is 2.

When 39 is divided by 5, the quotient is 7 and the remainder is 4.

When 7 is divided by 5, the quotient is 1 and the remainder is 2.

When 1 is divided by 5, the quotient is 0 and the remainder is 1.

Write the remainders from bottom to top.

(985)10 = (12420)5

Problem 5: Divide the number 56 repeatedly by 7 until the quotient becomes 0.

Solution:

Convert decimal to quinary with base 7

When 56 is divided by 7, the quotient is 8 and the remainder is 0.

When 8 is divided by 7, the quotient is 1 and the remainder is 1.

When 1 is divided by 7, the quotient is 0 and the remainder is 1.

Write the remainders from bottom to top.

(56)10 = (110)7

Problem 6: Divide the number repeatedly by 9 until the quotient becomes 0.

Solution:

Convert decimal to quinary with base 9

When 799 is divided by 9, the quotient is 88 and the remainder is 7.

When 88 is divided by 9, the quotient is 9 and the remainder is 7.

When 9 is divided by 9, the quotient is 1 and the remainder is 0.

When 1 is divided by 9, the quotient is 0 and the remainder is 1.

Write the remainders from bottom to top.

(799)10 = (1077)9

Problem 7: Divide the number 544 repeatedly by 12 until the quotient becomes 0.

Solution:

Convert decimal to quinary with base 12

When 544 is divided by 12, the quotient is 45 and the remainder is 4.

When 45 is divided by 12, the quotient is 3 and the remainder is 9.

When 3 is divided by 12, the quotient is 0 and the remainder is 3.

Write the remainders from bottom to top.

(544)10 = (394)12



Last Updated : 10 Jan, 2024
Like Article
Save Article
Previous
Next
Share your thoughts in the comments
Similar Reads