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Understanding Vectors: Basics and Geometric Operations

Learn the fundamentals of vectors, including geometric addition and subtraction, resolving vectors into components, and scalar and vector products. Discover how vectors are used in physics and the importance of direction in describing physical parameters.

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Understanding Vectors: Basics and Geometric Operations

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  1. Chapter-3 Vectors How does the ant know the way home with no guiding clues on the desert plain?

  2. Chapter 3 Vectors In physics we have parameters that can be completely described by a number and are known as scalars. Temperature and mass are such parameters. Other physical parameters require additional information about direction and are known as vectors. Examples of vectors are displacement, velocity, and acceleration. In this chapter we learn the basic mathematical language to describe vectors. In particular we will learn the following: Geometric vector addition and subtraction Resolving a vector into its components The notion of a unit vector Addition and subtraction vectors by components Multiplication of a vector by a scalar The scalar (dot) product of two vectors The vector (cross) product of two vectors (3-1)

  3. 3.4  Components of Vectors • Adding vectors geometrically can be tedious. A neater and easier technique involves components of vectors. • A component of a vector is the projection of the vector on an axis.

  4. An example of a vector is the displacement vector, which describes the change in position of an object as it moves from point A to point B. This is represented by an arrow that points from point A to point B. The length of the arrow is proportional to the displacement magnitude. The direction of the arrow indicated the displacement direction. The three arrows from A to B, from A' to B', and from A'' to B'', have the same magnitude and direction. A vector can be shifted without changing its value if its length and direction are not changed. In books vectors are written in two ways: Method 1: (using an arrow above) Method 2: a(using boldface print) The magnitude of the vector is indicated by italic print: a. (3-2)

  5. Geometric Vector Addition (3-3)

  6. Geometric Vector Subtraction Note: We can add and subtract vectors using the method of components. For many applications this is a more convenient method. (3-4)

  7. C B A (3-5)

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