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Vector & Scalar Quantities | Physics Class 11 - NEET PDF Download

Different physical quantities can be classified into the following two categories:

Vector & Scalar Quantities | Physics Class 11 - NEET

Scalars

Scalar quantity is defined as the physical quantity that has magnitude but no direction.

  • It can be represented by a number only. Example: Mass = 4 kg
  • The magnitude of mass = 4, Unit of mass = kg
  • Scalar quantities can be added, subtracted, and multiplied by simple laws of algebra.
  • Examples of Scalar Quantities include mass, speed, distance, time, area, volume, density & temperature.Vector & Scalar Quantities | Physics Class 11 - NEET

Question for Vector & Scalar Quantities
Try yourself:Which of the following is a scalar quantity?
View Solution

 Vectors

A vector quantity is defined as the physical quantity that has both direction as well as magnitude and follows law of vector addition.

VectorsVectors

For example, Speed = 4 m/s (is a scalar), Velocity = 4 m/s toward north (is a vector).

  • The magnitude of a vector is the absolute value of a vector and is indicated by |A|.
  • Example of Vector quantity: Displacement, velocity, acceleration, force, etc.

Vector & Scalar Quantities | Physics Class 11 - NEET

Difference between scalar and vector quantities is mentioned in table below:

Vector & Scalar Quantities | Physics Class 11 - NEET

Vectors are classified into two types such as :

1. Polar Vectors

Vectors which have a starting point or a point of application are called polar vectors.

Examples are Force, Displacement, etc.

Polar VectorsPolar Vectors

2. Axial Vectors

Vectors that represent effects of rotation and are directed along the axis of rotation. 

Examples of axial vectors include angular velocity, angular momentum, torque, etc.

Axial VectorsAxial Vectors

The direction of an axial vector is determined by the direction of rotation:

  • In an anti-clockwise rotation, the axial vector points upwards along the axis of rotation.
  • In a clockwise rotation, the axial vector points downwards along the axis of rotation.
  • The direction of the axial vector is determined by whether the rotation is anti-clockwise or clockwise.

Vector & Scalar Quantities | Physics Class 11 - NEET

General Points Regarding Vectors

1. Representation of Vector

  • Geometrically, the vector is represented by a line with an arrow indicating the direction of the vector as:

Vector & Scalar Quantities | Physics Class 11 - NEET

  • Mathematically, the vector is represented by Vector & Scalar Quantities | Physics Class 11 - NEET. Sometimes it is represented by the bold letter A.

Vector & Scalar Quantities | Physics Class 11 - NEET

  • Thus, the arrow in the above figure represents a vectorVector & Scalar Quantities | Physics Class 11 - NEET in XY-plane making an angle θ with the x-axis.
  • Graphical form: A vector is represented by a directed straight line, having the magnitude and direction of the quantity represented by it.
    Example: If we want to represent a force of 5 N acting 45° North of East.Vector & Scalar Quantities | Physics Class 11 - NEET

2. The Angle Between Two Vectors (θ)

The angle between two vectors refers to the smaller angle formed between them when they are positioned tail to tail by moving one of the vectors parallel to itself.

Vector & Scalar Quantities | Physics Class 11 - NEET

3. Unit Vector

A vector having magnitude equal to unity but having a specified direction is called a unit vector.

A unit vector of A is written as Vector & Scalar Quantities | Physics Class 11 - NEET(A cap).

It is expressed as

Vector & Scalar Quantities | Physics Class 11 - NEET

Q1. Vector & Scalar Quantities | Physics Class 11 - NEET  

Sol: Vector & Scalar Quantities | Physics Class 11 - NEET

Vector & Scalar Quantities | Physics Class 11 - NEET

Vector & Scalar Quantities | Physics Class 11 - NEET

4. Null Vector

A null vector is a vector that has zero magnitude but an undefined or arbitrary direction.

It is also called a zero vector and is represented byVector & Scalar Quantities | Physics Class 11 - NEET For example, the velocity vector of a stationary object or the acceleration vector of an object moving with uniform velocity are null vectors.

5.  Negative of Vector

It implies vectors of the same magnitude but opposite in direction.

Negative vectorNegative vector

6. Equality of Vectors

Vectors having equal magnitude and same direction are called equal vectors.

Vector & Scalar Quantities | Physics Class 11 - NEET

Vector & Scalar Quantities | Physics Class 11 - NEET

7. Collinear Vectors

If any two vectors are collinear, then one can be expressed in terms of the other. Vector & Scalar Quantities | Physics Class 11 - NEET = Vector & Scalar Quantities | Physics Class 11 - NEET (where λ is a constant)

Collinear vectorCollinear vector

Question for Vector & Scalar Quantities
Try yourself:What is the magnitude of a unit vector?
View Solution

8. Co-initial Vector

If two or more vectors start from the same point, then they are called co-initial vectors.

Vector & Scalar Quantities | Physics Class 11 - NEET

Here A, B, C, D are co-initial vectors.

Q2. Vector & Scalar Quantities | Physics Class 11 - NEET

Vector & Scalar Quantities | Physics Class 11 - NEET

Sol: Vector & Scalar Quantities | Physics Class 11 - NEET

Explanation:

Vector & Scalar Quantities | Physics Class 11 - NEET

9. Coplanar Vectors

Three (or more) vectors are called coplanar vectors if they lie in the same plane or are parallel to the same plane. Two (free) vectors are always coplanar.

Coplanar VectorsCoplanar VectorsNote: If the frame of reference is translated or rotated the vector does not change (though its components may change).

10. Orthogonal Unit Vectors

Orthogonal unit vectors are unit vectors that are perpendicular to each other. When two or three unit vectors are at right angles, they are referred to as orthogonal unit vectors.

Orthogonal unit vectorsOrthogonal unit vectors

Vector & Scalar Quantities | Physics Class 11 - NEET

11. Localised Vectors 

Localised Vectors are vectors that have a fixed starting point. 

For example, consider a vector Vector & Scalar Quantities | Physics Class 11 - NEET, this vector can be considered as a free vector because it doesn't matter where we draw this vector.

However, the vector Vector & Scalar Quantities | Physics Class 11 - NEET is localised. It has a specific origin (the starting point) and it points towards a certain direction.

Localised vectorLocalised vector

12. Non-localised Vectors

Non-localised Vectors are vectors that do not have a fixed starting point. 

For example, the velocity vector of a particle moving along a straight path is considered a non-localised vector. Here, initial point is not fixed.

Non-localised vectorNon-localised vector

13. Position Vector

Vector & Scalar Quantities | Physics Class 11 - NEET

Vector & Scalar Quantities | Physics Class 11 - NEET

14. Displacement Vector

A displacement vector shows how much and in which direction an object has moved from its initial position to its final position within a certain time. 

It is represented by the straight line connecting the starting and ending points, and it does not depend on the actual path taken by the object.

Vector & Scalar Quantities | Physics Class 11 - NEET

Vector & Scalar Quantities | Physics Class 11 - NEET

  

Q3. Vector & Scalar Quantities | Physics Class 11 - NEET 

Vector & Scalar Quantities | Physics Class 11 - NEET

Q4. Vector & Scalar Quantities | Physics Class 11 - NEET

Vector & Scalar Quantities | Physics Class 11 - NEET

Multiplication of a Vector by a Scalar

Vector & Scalar Quantities | Physics Class 11 - NEET

Resultant Vector

The resultant vector of two or more vectors is defined as the single vector that has the same effect as all the vectors combined.

There are two main cases:

Case I: When two vectors act in the same direction

  • If vectors A and B are acting in the same direction, the resultant vector R will also be in the same direction as A and BB.
  • The magnitude of the resultant vector is simply the sum of the magnitudes of AA and BB, i.e., R = A + BR=A+B.

Case II: When two vectors act in opposite directions

  • If vectors AA and B are acting in opposite directions, the resultant vector
    R
    R will be in the direction of the larger vector.
  • The magnitude of the resultant vector will be the absolute difference between the magnitudes of
    A
    A and B, i.e.,R=∣A−B∣.
  • If B>AB > A, the direction of R will be along BB. 
  • If A>BA > B, the direction of RR will be along A.A

Scalar or Dot Product of Two Vectors

The scalar product of two vectors is equal to the product of their magnitudes and the cosine of the smaller angle between them. 

It is denoted by .(dot). The scalar or dot product of two vectors is a scalar.

A . B = AB cos θ

Vector & Scalar Quantities | Physics Class 11 - NEET

Properties of Scalar Product:

  • Scalar product is commutative, i.e.,
    A . B= B . A
  • Scalar product is distributive, i.e.,
    A . (B + C) = A . B + A . C
  • Scalar product of two perpendicular vectors is zero.
    A . B = AB cos 90° = 0
  • Scalar product of two parallel vectors is equal to the product of their magnitudes, i.e., A . B = AB cos 0° = AB
  • Scalar product of a vector with itself is equal to the square of its magnitude, i.e.,
    A . A = AA cos 0° = A2
  • Scalar product of orthogonal unit vectors is zero and Scalar product in cartesian coordinates is given by AxBx + AyBy + AzBz

Q5. Find the cross product of two vectors a and b if their magnitudes are 5 and 10 respectively. Given that angle between then is 30°.

Sol: Vector & Scalar Quantities | Physics Class 11 - NEET

Question for Vector & Scalar Quantities
Try yourself:Dot product of two mutual perpendicular vector is
View Solution

Vector or Cross Product of Two Vectors

The vector product of two vectors is equal to the product of their magnitudes and the sine of the smaller angle between them. It is denoted by X (cross).

Vector & Scalar Quantities | Physics Class 11 - NEET

Vector cross productVector cross product

  • The direction of unit vector n can be obtained from right hand thumb rule.
  • If fingers of right hand are curled from A to B through smaller angle between them, then thumb will represent the direction of vector (A X B).
  • The vector or cross product of two vectors is also a vector.

Properties of Vector Product:

  • Vector product is not commutative, i.e.,
    A X B ≠ B X A  [ therefore, (A X B) = - (B X A)]
  • Vector product is distributive, i.e.,
    A X (B + C) = A X B + A X C
  • Vector product of two parallel vectors is zero, i.e.,
    A X B = A B sin 0° = 0
  • Vector product of any vector with itself is zero.
    A X A = A A sin 0° = 0
  • On moving in a clockwise direction and taking the cross product of any two pair of the unit vectors we get the third one and in an anticlockwise direction, we get the negative resultant.

Vector & Scalar Quantities | Physics Class 11 - NEET

The following results can be established:

Vector & Scalar Quantities | Physics Class 11 - NEET

Question for Vector & Scalar Quantities
Try yourself:The angle between the vectors (A x B) and (B x A) is:
View Solution

Direction of Vector Cross Product

  • When C = A X B, the direction of C is at right angles to the plane containing the vectors A and B. The direction is determined by the right hand screw rule, and right hand thumb rule.
  • Right Hand Thumb Rule: Curl the fingers of your right hand from A to B. Then, the direction of the erect thumb will point in the direction of A X B.
    Right Hand Thumb Rule
    Right Hand Thumb Rule
  • Right Hand Screw Rule: It is also known as Maxwell's Screw Rule,  a simple and visual way to determine the direction of a magnetic field or angular motion in relation to a current or rotation.
    Explanation:
  • Imagine holding a screw and turning it with a screwdriver.
  • The direction in which you turn the screw (clockwise or counterclockwise) is the direction of rotation.
  • The direction in which the screw moves (up or down along the axis) corresponds to the direction of the current or the magnetic field.

Vector & Scalar Quantities | Physics Class 11 - NEET

Q6. Vector & Scalar Quantities | Physics Class 11 - NEET

Vector & Scalar Quantities | Physics Class 11 - NEET

Sol:

 Vector & Scalar Quantities | Physics Class 11 - NEET

Here is the summarised table of different types of vectors:

Vector & Scalar Quantities | Physics Class 11 - NEET

The document Vector & Scalar Quantities | Physics Class 11 - NEET is a part of the NEET Course Physics Class 11.
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FAQs on Vector & Scalar Quantities - Physics Class 11 - NEET

1. What is the difference between scalar and vector quantities?
Ans.Scalar quantities are defined by only their magnitude, such as temperature or mass, while vector quantities have both magnitude and direction, such as velocity or force.
2. How do you calculate the dot product of two vectors?
Ans.The dot product of two vectors A and B is calculated by multiplying their corresponding components and then summing the results. Mathematically, it is expressed as A · B = Ax * Bx + Ay * By + Az * Bz.
3. What is the significance of the cross product of two vectors?
Ans.The cross product of two vectors results in another vector that is perpendicular to the plane formed by the original vectors. It is used to determine torque, angular momentum, and the area of parallelograms formed by the vectors.
4. Can you give an example of a scalar quantity and a vector quantity?
Ans.An example of a scalar quantity is temperature, which only has a magnitude (e.g., 30 degrees Celsius). An example of a vector quantity is displacement, which has both magnitude (e.g., 5 meters) and direction (e.g., 5 meters north).
5. What are some common applications of vectors in physics?
Ans.Vectors are widely used in physics to represent various quantities such as velocity, acceleration, and force. They are also essential in mechanics for analyzing motion, in electromagnetism for representing electric and magnetic fields, and in computer graphics for modeling 3D objects.
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