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What is the Magnitude of a Vector?

As we know, the vector is an object which has both the magnitude as well as direction. To find the magnitude of a vector, we need to calculate the length of the vector. Quantities such as velocity, displacement, force, momentum, etc. are vector quantities. But speed, mass, distance, volume, temperature, etc. are scalar quantities. The scalar has the only magnitude, whereas the vectors have both magnitude and direction.

Applications | Mathematics for NDA

The magnitude of a vector formula is used to calculate the length for a given vector (say v) and is denoted as |v|. So basically, this quantity is the length between the initial point and endpoint of the vector. To calculate the magnitude of the vector, we use the distance formula, which we will discuss here.

Magnitude of a Vector Formula

Suppose, AB is a vector quantity that has magnitude and direction both. To calculate the magnitude of the vectorApplications | Mathematics for NDA, we have to calculate the distance between the initial point A and endpoint B. In XY – plane, let A has coordinates (x0, y0) and B has coordinates (x1, y1). Therefore, by distance formula, the magnitude of vector Applications | Mathematics for NDA,  can be written as;
|Applications | Mathematics for NDA| = Applications | Mathematics for NDA
Now if the starting point is at (x, y) and the endpoint is at the origin, then the magnitude of a vector formula becomes;
|Applications | Mathematics for NDA| = Applications | Mathematics for NDA
Applications | Mathematics for NDA

Direction of a vector

The direction of a vector is nothing but the measurement of the angle which is made with the horizontal line. One of the methods to find the direction of the vectorApplications | Mathematics for NDA is; tan α = y/x; endpoint at 0.
Where x is the change in horizontal line and y is the change in a vertical line.
Or tan α = Applications | Mathematics for NDA 
; where (x0 , y0) is initial point and (x1 , y1) is the endpoint.

Problems on Magnitude of a Vector

Problem 1: Find the magnitude of the vector
Applications | Mathematics for NDA
whose initial point, A is (1, 2) and endpoint, B is (4, 3).
Sol: Given
, A is (1, 2) and B is (4, 3) as the initial point and endpoint respectively.
Therefore, x0 = 1 & y0 = 2 and x1 = 4 & y1 = 3
Using distance formula,
|Applications | Mathematics for NDA| = Applications | Mathematics for NDA

|Applications | Mathematics for NDA| = Applications | Mathematics for NDA

|Applications | Mathematics for NDA| = Applications | Mathematics for NDA

|Applications | Mathematics for NDA| = Applications | Mathematics for NDA

|Applications | Mathematics for NDA| = Applications | Mathematics for NDA

|Applications | Mathematics for NDA|  ≈ 3.2

The magnitude of
|Applications | Mathematics for NDA≈ 3.2
If we have to calculate the magnitude of a 3d vector, then there would be three coordinates points and we can represent the magnitude of the vector
Applications | Mathematics for NDA

|Applications | Mathematics for NDA| = Applications | Mathematics for NDA
Let us consider a 3d object.
Applications | Mathematics for NDAIn the figure, you can see the magnitude of the vector is represented by the vector
Applications | Mathematics for NDA
(blue line), which is the length of the arrow representing.

Applications | Mathematics for NDA
So, the length of the OP is the magnitude of Applications | Mathematics for NDA.
To calculate the magnitude, we have to use Pythagoras theorem here, for the triangles, OBP and OAB.
In triangle OBP (1)
OP2 = OB2 + BP2
And in triangle OAB (2)
OB2 = OA2 + AB2
From equation 1 and 2 we get,
OP2 = OA+ AB2 + BP2
Therefore, the magnitude of a 3d vector xi + yj + zk =Applications | Mathematics for NDA

Problem 2: Find the magnitude of a 3d vector 2i + 3j + 4k.
Sol:
We know, the magnitude of a 3d vector xi + yj + zk =Applications | Mathematics for NDA
Therefore, the magnitude of a 3d vector 2i + 3j + 4k
Applications | Mathematics for NDA
Hence, the magnitude of a 3d vector 2i + 3j + 4k ≈ 5.38

The document Applications | Mathematics for NDA is a part of the NDA Course Mathematics for NDA.
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FAQs on Applications - Mathematics for NDA

1. What is the magnitude of a vector?
Ans. The magnitude of a vector is the length or size of the vector, which is calculated using the Pythagorean theorem in two dimensions or the magnitude formula in three dimensions.
2. What is the formula to calculate the magnitude of a vector?
Ans. The formula to calculate the magnitude of a vector in three dimensions is given by |v| = √(v1^2 + v2^2 + v3^2), where v1, v2, and v3 are the components of the vector in x, y, and z directions, respectively.
3. How is the direction of a vector determined?
Ans. The direction of a vector is determined by the angle it makes with the positive x-axis in a counterclockwise direction. This angle is usually denoted as θ, and it helps specify the orientation of the vector in space.
4. What are some common problems involving the magnitude of a vector?
Ans. Common problems involving the magnitude of a vector include finding the resultant of two vectors, determining the projection of a vector onto another, and calculating the work done by a force vector.
5. How can the magnitude of a vector be applied in real-life situations?
Ans. The magnitude of a vector can be applied in various real-life situations, such as calculating the velocity of an object, determining the force needed to move an object, and analyzing the displacement of an object in a given direction.
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