
Document
... We are told to use the law of sines to find x. In order to use the law of sines, we need to have the lengths of two sides and the measures of the angle opposite those sides. In this case we have one side and the side we are looking for. We have the measure of the angle opposite the side we are looki ...
... We are told to use the law of sines to find x. In order to use the law of sines, we need to have the lengths of two sides and the measures of the angle opposite those sides. In this case we have one side and the side we are looking for. We have the measure of the angle opposite the side we are looki ...
Ready Set Math!
... Ready, Set, Math! The following is a comprehensive list of the math skills students learn in each grade. The skills are organized into categories: As you read the activities in the plan, keep in mind the specifics skills your students need to practice and master in the different grade levels you wor ...
... Ready, Set, Math! The following is a comprehensive list of the math skills students learn in each grade. The skills are organized into categories: As you read the activities in the plan, keep in mind the specifics skills your students need to practice and master in the different grade levels you wor ...
QUANTUM – TYPE AND CONTINUOUS COMPRESSIONS Author:I. Szalay
... x c is called the c –compressed of x and R c is called the c- compressed of the real number line. If S R then the set S c x c R c : x S is called the c – compressed of S. The inverse of compressor ...
... x c is called the c –compressed of x and R c is called the c- compressed of the real number line. If S R then the set S c x c R c : x S is called the c – compressed of S. The inverse of compressor ...
Mathematics of radio engineering

The mathematics of radio engineering is the mathematical description by complex analysis of the electromagnetic theory applied to radio. Waves have been studied since ancient times and many different techniques have developed of which the most useful idea is the superposition principle which apply to radio waves. The Huygen's principle, which says that each wavefront creates an infinite number of new wavefronts that can be added, is the base for this analysis.