Analytical geometry is more commonly known as coordinate geometry. Using Cartesian, Polar or other coordinates systems, geometric shapes can be represented in algebraic terms. This bringing together of algebra and geometry enables the results in one branch of mathematics to be applied to finding solutions in the other.
Analytical geometry is used widely in engineering. It set the foundation for algebraic, differential, discrete, and computational geometry. It is the study of geometry using a coordinate system.
In analytical geometry, you equate the equations of the two planes and simplify.
Coordinate geometry (or analytical geometry) allows the algebraic representation of geometric shapes. This then allows algebraic concepts to be applied to geometry.
analytical geometry is extremely useful in solving the geometrical problems
analytical geometry
Thales
Analytical geometry is used widely in engineering. It set the foundation for algebraic, differential, discrete, and computational geometry. It is the study of geometry using a coordinate system.
René Descartes developed analytic geometry
analytical geometry
Francesco Severi has written: 'Conferencia general sobre la geometria algebraica' -- subject(s): Analytical Geometry, Geometry, Analytical
In analytical geometry, you equate the equations of the two planes and simplify.
Coordinate geometry (or analytical geometry) allows the algebraic representation of geometric shapes. This then allows algebraic concepts to be applied to geometry.
You can do so using coordinate (or analytical) geometry.
Through the study of analytical, or coordinate geometry.
analytical geometry is extremely useful in solving the geometrical problems
analytical geometry
Surendramohan Ganguli has written: 'Analytical geometry of hyperspaces' -- subject(s): Analytic Geometry