how to find unit vector

Unit Vector

Vectors are a geometric entity that has magnitude and direction. Vectors have a starting point and a terminal point which represents the final position of the point. Various arithmetic operations can be applied to vectors such as addition, subtraction, and multiplication. A vector that has a magnitude of 1 is termed a unit vector. For example, vector v = (1,3) is not a unit vector, because its magnitude is not equal to 1, i.e., |v| = √(1²+3²) ≠ 1.

Any vector can become a unit vector when we divide it by the magnitude of the same given vector. A unit vector is also sometimes referred to as a direction vector. Let us learn more about the unit vector, its formula along with few solved examples.

1.	What Is Unit Vector?
2.	Unit Vector Notation
3.	Unit Vector Formula
4.	Application of Unit Vector
5.	Properties of Vectors
6.	Solved Examples
7.	Practice Questions on Unit Vector
8.	FAQs on Unit Vector

What Is Unit Vector?

Unit Vector Definition: Vectors that have magnitude equals to 1 are called unit vectors, denoted by ^a. The length of unit vectors is 1. Unit vectors are generally used to denote the direction of a vector.

Representation of Unit Vector

A unit vector has the same direction as the given vector but has a magnitude of one unit; For a vector A; a unit vector is; \(\hat{A}\) and \(\vec{A} = (1/|A|)\hat{A}\)

The Magnitude of a Vector:

The magnitude of a vector formula gives the numeric value for a given vector. A vector has both a direction and a magnitude. The magnitude of a vector formula summarises the individual measures of the vector along the x-axis, y-axis, and z-axis. The magnitude of a vector ^-A is |A|. For a given vector with the direction along the x-axis, y-axis, and z-axis, the magnitude of the vector can be obtained by calculating the square root of the sum of the square of its direction ratios. Let us understand it clearly from the below magnitude of a vector formula.

For a vector \(\vec{A}\) = ai + bj + ck its magnitude is:
\[ |A| = \sqrt{a_1^2 + b_1^2 + c_1^2}\]

Unit vector

Unit Vector Notation

Unit Vector is represented by the symbol '^', which is called a cap or hat, such as \(\hat{a}\). It is given by \(\hat{a}\) = a/|a| Where |a| is for norm or magnitude of vector a. It can be calculated using a Unit vector formula or by using a calculator.

Unit vector in three-dimension

The unit vectors of ^i, ^j, and ^k are usually the unit vectors along the x-axis, y-axis, z-axis respectively. Every vector existing in the three-dimensional space can be expressed as a linear combination of these unit vectors. The dot products of two unit vectors is always a scalar quantity. On the other hand, the cross-product of two given unit vectors gives a third vector perpendicular (orthogonal) to both of them.

Unit Normal Vector:

A 'normal vector' is a vector that is perpendicular to the surface at a defined point. It is also called "normal" to a surface containing the vector. The unit vector that is acquired after normalizing the normal vector is the unit normal vector, also known as the "unit normal." For this, we divide a non-zero normal vector by its vector norm.

Unit Vector Formula

As vectors have both magnitude (Value) and direction, they are shown with an arrow \(\hat{a}\), and it denotes a unit vector. If we want to find the unit vector of any vector, we divide it by the vector's magnitude. Usually, the coordinates of x, y, z are used to represent any vector.

A vector can be represented in two ways:
1. ^→a = (x, y, z) using the brackets.

2. ^→a =x^i + y^j +z^k

The formula for the magnitude of a vector is:
|^→a|=√(x² + y² + z²)
Unit Vector = Vector/Vector's magnitude
The above is a unit vector formula.

How to find the unit vector?
To find a unit vector with the same direction as a given vector, simply divide the vector by its magnitude. For example, consider a vector v = (1,4) which has a magnitude of |v|. If we divide each component of vector v by |v| to get the unit vector ^v which is in the same direction as v.

How to represent vector in a bracket format?
^a = a/|a| = (x,y,z)/√(x² + y² + z²) = x/ √(x² + y² + z²), y/√(x² + y² + z²), z/√(x² + y² + z²)

How to represent vector in a unit vector component format?
^a = a/|a| = (x^i+y^j+z^k)/√(x² + y² + z²) = x/√(x² + y² + z²) . ^i, y/√(x² + y² + z²) . ^j, z/√(x² + y² + z²) . ^k
Where x, y, z represent the value of the vector along the x- axis, y-axis, z-axis respectively and
^a is a unit vector, ^→a is a vector, |^→a| is the magnitude of the vector, ^i, ^j, ^k are the directed unit vectors along the (x, y, z) axis respectively.

Application of Unit Vector

Unit vectors specify the direction of a vector. Unit vectors can exist in both two and three-dimensional planes. Every vector can be represented with its unit vector in the form of its components. The unit vectors of a vector are directed along the axes. Unit vectors in 3-d space can be represented as follows: v = x^ + y^ + z^.

In the 3-d plane, the vector v will be identified by three perpendicular axes (x, y, and z-axis). In mathematical notations, the unit vector along the x-axis is represented by i^. The unit vector along the y-axis is represented by j^, and the unit vector along the z-axis is represented by k^.

The vector v can hence be written as:

v = xi^ + yj^ + zk^

Electromagnetics deals with electric forces and magnetic forces. Here vectors are come in handy to represent and perform calculations involving these forces. In day-to-day life, vectors can represent the velocity of an airplane or a train, where both the speed and the direction of movement are needed.

Properties of Vectors

The properties of vectors are helpful to gain a detail understanding of vectors and also to perform numerous calculations involving vectors, A few important properties of vectors are listed here.

\(\vec A . \vec B = \vec B. \vec A \)
\( \vec A \times \vec B\neq \vec B \times \vec A \)
\(\hat i .\hat i =\hat j.\hat j = \hat k.\hat k = 1 \)
\(\hat i .\hat j =\hat j.\hat k = \hat k.\hat i = 0 \)
\(\hat i \times \hat i =\hat j\times \hat j = \hat k\times \hat k = 0 \)
\(\hat i \times \hat j = \hat k~;~ \hat j\times \hat k = \hat i~;~ \hat k\times \hat i = \hat j \)
\(\hat j \times \hat i = -\hat k~;~ \hat k \times \hat j = -\hat i~;~ \hat i \times \hat k = -\hat j \)
The dot product of two vectors is a scalar and lies in the plane of the two vectors.
The cross product of two vectors is a vector, which is perpendicular to the plane containing these two vectors.

Related Topics:

Vectors
Vector Quantities
Vector Formulas
Vector Addition as Net Effect
Resolving a Vector into Components
Vector Subtraction Calculator
Vector Formulas
Vector Projection Formula
Dot Product Calculator

Important Notes on Unit Vectors:

The dot product of orthogonal unit vectors is always zero.
The Cross product of parallel unit vectors is always zero.
Two or more unit vectors are collinear if their cross product is zero.
The norm of a vector is a real non-negative value that represents its magnitude.

Example 1: Find the unit vector of \(3\hat i + 4\hat j - 5\hat k\).

Solution: Given vector \(\vec A = 3\hat i + 4\hat j - 5\hat k\)
\(\begin{align}|\vec{A}| &= \sqrt{3^2 + 4^2 + (-5)^2} \\&= \sqrt{9 + 16 + 25} \\&= \sqrt{50}\\&=5\sqrt2\end{align}\)

\(\begin{align}\hat A &= \frac{1}{|\vec{A}|}.\vec A \\&= \frac{1}{5\sqrt2}.(3 \hat i + 4\hat j - 5\hat k)\end{align}\)

Answer: Hence the unit vector is \( \frac{1}{5\sqrt2}.(3 \hat i + 4\hat j - 5\hat k) \).
Example 2: Find the vector of magnitude 8 units and in the direction of the vector \( \hat i - 7\hat j + 2\hat k\).

Solution: Given vector \(\vec A = \hat i - 7\hat j + 2\hat k \).
\(\begin{align}|\vec{A}| &= \sqrt{1^2 + (-7)^2 + 2^2} \\&= \sqrt{1 + 49 + 4} \\&= \sqrt{54}\\&=3\sqrt6\end{align}\)
The unit vector can be calculated using this below formula.
\(\begin{align}\hat A &= \frac{1}{|\vec{A}|}.\vec A \\&= \frac{1}{3\sqrt6}.(\hat i - 7\hat j + 2\hat k)\end{align}\)

The vector of magnitude 8 units = \(\frac{4\sqrt6}{9}.(\hat i - 7\hat j + 2\hat k)\)

Answer: Therefore the vector of magnitude 8 units = \(\frac{4\sqrt6}{9}.(\hat i - 7\hat j + 2\hat k)\)

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FAQs on Unit Vector

What Is a Unit Vector in Math?

A vector that has a magnitude of 1 is a unit vector. It is also known as a direction vector because it is generally used to denote the direction of a vector. The vectors \(\hat i\), \(\hat j\), \(\hat k\), are the unit vectors along the x-axis, y-axis, and z-axis respectively.

How Do You Find the Unit Vector With the Same Direction as a Given Vector?

To find a unit vector with the same direction as a given vector, we divide the vector by its magnitude. For example, consider a vector v = (1, 4) which has a magnitude of |v|. If we divide each component of vector v by |v| we will get the unit vector \(\hat v\) which is in the same direction as v.

What Is a Unit Vector Used For?

Unit vectors are only used to specify the direction of a vector. Unit vectors exist in both two and three-dimensional planes. Every vector has a unit vector in the form of its components. The unit vectors of a vector are directed along the axes.

What Is a Unit Vector Formula?

The unit vector \(\hat{A}\) is obtained by dividing the vector \(\longrightarrow A\) with its magnitude \(|\mathrm{A}|\). The unit vector has the same direction coordinates as that of the given vector. \(\hat{A}=\frac{A}{\mid A}\)

What Is a Normal Unit Vector?

A unit normal vector to a two-dimensional curve is a vector with magnitude 1 that is perpendicular to the curve at some point. Typically you look for a function that gives you all possible unit normal vectors of a given curve, not just one vector.

How Do You Find the Unit Vector Perpendicular to Two Vectors?

The cross-product of two non-parallel results in a vector that is a vector that is perpendicular to both of them. So, for the given two vectors \(\vec{x}\) and \(\vec{y}\), we know that, \(\vec{x} \times \vec{y}\) will be a vector that is perpendicular to both \(\vec{x} \& \vec{y}\). Further, we find the unit vector of this resultant vector to obtain the unit vector perpendicular to the two given vectors.

When Are the Two Vectors said to be Parallel Vectors?

Two or more vectors are parallel if they are moving in the same direction. Also, the cross-product of parallel vectors is always zero.