The French mathematician and philosopher Ren Descartes is credited with creating analytical geometry. It is also known as coordinate geometry. Descartes introduced the concept of using algebraic equations to describe geometric shapes, thereby providing a means of representing geometric objects in a quantitative and mathematical way.Descartes is considered one of the most influential thinkers of the 17th century, and his ideas have had a profound impact on mathematics, philosophy, and science.

René Descartes' contributions to mathematics and philosophy, particularly in the realm of analytical geometry, have had a profound and lasting impact on various fields:

1. **Coordinate Geometry and Cartesian Coordinate System:**
   - Descartes's groundbreaking work laid the foundation for coordinate geometry, which is often referred to as Cartesian geometry.
   - He introduced the Cartesian coordinate system, where points in a plane are represented by pairs of numerical coordinates. This innovation allowed geometric shapes to be described algebraically through equations.

2. **Integration of Algebra and Geometry:**
   - Descartes bridged the gap between algebra and geometry, showcasing how algebraic equations could be used to express geometric relationships.
   - This integration was a revolutionary concept, marking a departure from the traditional methods of geometric representation.

3. **Descartes's Plane:**
   - Descartes demonstrated that geometric figures could be represented and analyzed algebraically by introducing a system where the plane could be divided into two perpendicular axes (x and y axes).
   - This method of representation is now fundamental in mathematics and is known as the Cartesian plane.

4. **Analytical Geometry as a Tool for Problem-Solving:**
   - Descartes's analytical geometry provided mathematicians and scientists with a powerful tool for solving geometric problems using algebraic techniques.
   - It facilitated the study of curves, lines, and shapes in a quantitative manner, enabling a more systematic and precise approach to problem-solving.

5. **Legacy in Mathematics:**
   - Descartes's work laid the groundwork for future developments in mathematics, contributing significantly to the evolution of the discipline.
   - The Cartesian coordinate system remains a cornerstone in various branches of mathematics, including calculus, physics, computer science, and engineering.

6. **Philosophical Impact:**
   - While primarily known for his mathematical contributions, Descartes was a prominent philosopher. His famous statement "Cogito, ergo sum" ("I think, therefore I am") exemplifies his approach to philosophical reasoning.
   - Descartes's emphasis on reason and mathematical methodology in understanding the natural world had a lasting impact on the Scientific Revolution.

7. **Descartes's Rule of Signs:**
   - In addition to analytical geometry, Descartes made contributions to algebra, including the Rule of Signs, a method for determining the number of positive and negative roots of a polynomial.

Descartes's work not only revolutionized mathematical thinking but also influenced broader intellectual movements. The fusion of algebra and geometry in analytical geometry opened new avenues for exploration and has become an enduring and fundamental aspect of mathematical study.