Indeterminate Equations of the First Degree: Difference between revisions

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On account of its special importance exclusive work on this entitled kuṭṭākāra śiromaṇi by Devarāja  a commentator of of Āryabhaṭa I.
On account of its special importance exclusive work on this entitled kuṭṭākāra śiromaṇi by Devarāja  a commentator of of Āryabhaṭa I.


== Varieties of Problems ==
== Types of Problems ==
There are three varieties of problems pertaining to Indeterminate equations of the first degree.
There are three types of problems pertaining to Indeterminate equations of the first degree.


Variety 1 : Find a number (N) which when divided by two given numbers (a, b) will leave two remainders (R<sub>1</sub>,R<sub>2</sub>).
'''Type 1:''' Find a number N which when divided by two given numbers a and  b will leave two remainders R<sub>1</sub> and R<sub>2</sub> .


Now we have <math>N=ax+R_1=by+R_2
Now we have <math>N=ax+R_1=by+R_2
</math>
</math>


<math>by-ax = R_1-R_2
Hence <math>by-ax = R_1-R_2
</math>
</math>


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</math>
</math>


Positive or Negative sign considered according as R<sub>1</sub> is greater than or less than R<sub>2</sub>.


the upper or lower sign being taken according as Rl
'''Type 2:'''


> or < R2• In a pro blem of the second kind we are
Find a number 'x' such that its product with a given number 'α' being increased or decreased by another given number 'γ'  and then divided by a third


required to find a number (x) such that its product with
given number 'β'  will leave no remainder. In other words we shall have to solve


a given number (a) being increased or decreased .by
<math>{\frac{\alpha x\pm \gamma}{\beta}}= y</math>


another given number .(v) and then divided by a 'third
in positive integers.


given number (~) will leave no remainder. In other
'''Type 3:'''  Equations of the form  <math>{\displaystyle by+ax=\pm c}</math>


words we shall have to solve
== Terminology ==
 
Hindus called the subject of indeterminate analysis of the first degree as kuṭṭaka , kuṭṭākāra kuṭṭīkāra  or simply kuṭṭa. The names kuṭṭākāra and kuṭṭa appear as early as the Mahā-Bhāskarīya of Bhāskara I (522) .
ax±- v =Y
 
~
 
in positive integers. The third variety of problems
 
similarly leads to equations of the form
 
by + ax = ± c.


== References ==
== References ==

Revision as of 19:56, 22 February 2022

Āryabhaṭa I (476) [1]was the earliest Hindu Algebraist worked on the Indeterminate Equations of the First Degree. He provided a method for solving the simple indeterminate equation

where a, b and c are integers.He also provided how to extend this to solve Simultaneous Indeterminate Equations of the first degree.

Bhāskara I (522) disciple of Āryabhaṭa I has displayed that the same method might be applied to solve the equation

and further that the solution of this equation would follow from that of

Brahmagupta and others followed the methods of Āryabhaṭa I and Bhāskara I

Importance

The subject of indeterminate analysis of the first degree was considered so important by ancient Hindu Algebraists that the whole science of algebra was once named after it. Āryabhaṭa II , Bhāskara II and others mentions precisely along with the sciences of arithmetic, algebra and astronomy.

On account of its special importance exclusive work on this entitled kuṭṭākāra śiromaṇi by Devarāja a commentator of of Āryabhaṭa I.

Types of Problems

There are three types of problems pertaining to Indeterminate equations of the first degree.

Type 1: Find a number N which when divided by two given numbers a and b will leave two remainders R1 and R2 .

Now we have

Hence

Putting

Positive or Negative sign considered according as R1 is greater than or less than R2.

Type 2:

Find a number 'x' such that its product with a given number 'α' being increased or decreased by another given number 'γ' and then divided by a third

given number 'β' will leave no remainder. In other words we shall have to solve

in positive integers.

Type 3: Equations of the form

Terminology

Hindus called the subject of indeterminate analysis of the first degree as kuṭṭaka , kuṭṭākāra kuṭṭīkāra or simply kuṭṭa. The names kuṭṭākāra and kuṭṭa appear as early as the Mahā-Bhāskarīya of Bhāskara I (522) .

References

  1. Datta, Bibhutibhusan; Narayan Singh, Avadhesh (1962). History of Hindu Mathematics. Mumbai: Asia Publishing House.