Acceleration Notes for Class 11 Physics CBSE & NEET

 Acceleration

│

├── Definition

│   ├── Rate of change of velocity

│   ├── Vector quantity

│   └── Has magnitude + direction

│

├── Velocity Change

│   ├── Change in speed

│   ├── Change in direction

│   └── Both speed and direction

│

├── Average Acceleration

│   ├── Formula

│   │   └── a = Δv / Δt

│   │

│   ├── Terms

│   │   ├── Δv = change in velocity

│   │   └── Δt = time interval

│   │

│   └── Direction

│       └── Same as Δv

│

├── Instantaneous Acceleration

│   ├── Acceleration at a particular instant

│   ├── Very small time interval

│   └── Formula

│       └── a = dv / dt

│

├── Motion in x-y Plane

│   ├── Velocity Components

│   │   ├── vx = v cosθ

│   │   └── vy = v sinθ

│   │

│   ├── Acceleration Components

│   │   ├── ax = dvx/dt

│   │   └── ay = dvy/dt

│   │

│   └── Vector Form

│       └── a = ax i + ay j

│

├── Graphical Understanding

│   ├── Velocity changes from point to point

│   ├── Δv found by vector subtraction

│   ├── Smaller Δt gives accurate acceleration

│   └── Δt → 0 gives instantaneous acceleration

│

├── Units

│   ├── SI Unit

│   │   └── m/s²

│   │

│   └── Dimensional Formula

│       └── [M⁰L¹T⁻²]

│

├── Special Cases

│   ├── Constant velocity

│   │   └── Acceleration = 0

│   │

│   ├── Negative acceleration

│   │   └── Retardation / Deceleration

│   │

│   └── Circular motion

│       └── Acceleration exists due to direction change

│

└── Important NEET Formulas

    ├── a = Δv / Δt

    ├── a = dv / dt

    ├── ax = dvx / dt

    ├── ay = dvy / dt

    ├── vx = v cosθ

    └── vy = v sinθ 

Class 11 Physics Acceleration Notes with
 Formulas and Vector Components for CBSE and NEET Students 

- Dr.Sanjaykumar pawar

 

Acceleration Notes (NEET Level)

1. What is Acceleration?

Acceleration tells us how quickly velocity changes with time.

• If speed changes → acceleration exists.
• If direction changes → acceleration exists.
• If both change → acceleration exists.

Acceleration is a vector quantity because it has both magnitude and direction.

---

2. Average Acceleration

Average acceleration is defined as:

Average Acceleration = Change in Velocity / Time Interval

a = Δv / Δt

Where:

• a = average acceleration
• Δv = change in velocity
• Δt = time interval

---

3. Velocity Components in x-y Plane

In two-dimensional motion, velocity has two components:

• vx → velocity along x-axis
• vy → velocity along y-axis

Δv = Δvx i + Δvy j

Therefore acceleration becomes:

a = (Δvx / Δt)i + (Δvy / Δt)j

Where:

• i = unit vector along x-axis
• j = unit vector along y-axis

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4. Components of Acceleration

a = ax i + ay j

Where:

• ax = acceleration along x-axis
• ay = acceleration along y-axis

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5. Instantaneous Acceleration

Instantaneous acceleration means acceleration at a particular instant of time.

It is obtained when the time interval becomes extremely small.

a = lim (Δt → 0) (Δv / Δt)

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6. Component Form of Instantaneous Acceleration

ax = dvx / dt

ay = dvy / dt

Meaning:

• ax = rate of change of velocity along x-axis
• ay = rate of change of velocity along y-axis

---

7. Graphical Understanding of Acceleration

Suppose an object moves from point P to another point after a small time interval Δt.

• The velocity changes from v to another value.
• The change in velocity is called Δv.
• The direction of acceleration is same as the direction of Δv.

As Δt becomes smaller:

• Average acceleration approaches instantaneous acceleration.
• The direction becomes more accurate.

---

8. Velocity Components

If velocity makes angle θ with x-axis:

vx = v cos θ

vy = v sin θ

Where:

• vx = horizontal component
• vy = vertical component

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9. SI Unit of Acceleration

m/s²

Read as: metre per second square

---

10. Dimensional Formula

[M⁰L¹T⁻²]

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11. Important NEET Points

• Acceleration depends on change in velocity.
• Constant velocity means acceleration is zero.
• Negative acceleration is called retardation or deceleration.
• In circular motion, acceleration exists even if speed is constant because direction changes continuously.

---

12. Formula Summary Table

Concept	Formula
Average Acceleration	a = Δv / Δt
Instantaneous Acceleration	a = dv / dt
x-component	ax = dvx / dt
y-component	ay = dvy / dt
Velocity Components	vx = v cos θ, vy = v sin θ

Quick Revision

• Acceleration = Rate of change of velocity.
• It is a vector quantity.
• SI unit = m/s².
• Velocity change can be due to speed or direction change.
• Average acceleration uses finite time interval.
• Instantaneous acceleration uses very small time interval.

Class 11 Physics - Acceleration Questions and Answers

1. Multiple Choice Questions (MCQs)

Q1. Acceleration is defined as:

A. Change in displacement
B. Change in speed
C. Change in velocity per unit time
D. Distance travelled per unit time

Answer: C. Change in velocity per unit time

Q2. SI unit of acceleration is:

A. m/s
B. m/s²
C. m²/s
D. km/h

Answer: B. m/s²

Q3. Which of the following is a vector quantity?

A. Distance
B. Speed
C. Time
D. Acceleration

Answer: D. Acceleration

2. Very Short Answer Questions

Q1. Define acceleration.

Answer: Acceleration is the rate of change of velocity with time.

Q2. Write the SI unit of acceleration.

Answer: m/s²

Q3. Is acceleration a scalar or vector quantity?

Answer: Vector quantity.

3. Short Answer Questions

Q1. Differentiate between average acceleration and instantaneous acceleration.

Average Acceleration	Instantaneous Acceleration
Calculated over a finite time interval	Calculated at a particular instant
a = Δv / Δt	a = dv / dt
Gives average change	Gives exact change

Q2. Why is acceleration a vector quantity?

Answer: Acceleration depends on change in velocity. Since velocity has both magnitude and direction, acceleration is also a vector quantity.

4. Long Answer Questions

Q1. Define average acceleration and derive its formula.

Average acceleration is the change in velocity divided by time interval.

If initial velocity = u
Final velocity = v
Time taken = Δt

Change in velocity:

Δv = v - u

Therefore,

a = Δv / Δt

Answer: Average acceleration is equal to change in velocity divided by time interval.

Q2. Explain instantaneous acceleration.

Instantaneous acceleration is acceleration at a particular instant of time. It is obtained when the time interval becomes extremely small.

a = dv / dt

Answer: Instantaneous acceleration gives exact acceleration at any instant.

5. Assertion and Reason Questions

Q1.

Assertion (A): Acceleration is a vector quantity.
Reason (R): Acceleration depends on change in velocity.

A. Both A and R are true and R is correct explanation of A
B. Both A and R are true but R is not correct explanation
C. A is true but R is false
D. A is false but R is true

Answer: A

6. Fill in the Blanks

1. Acceleration is the rate of change of _______.

Answer: velocity

2. SI unit of acceleration is _______.

Answer: m/s²

3. Negative acceleration is called _______.

Answer: retardation

7. Case Study Questions

A car moves along a straight road. Its velocity changes from 10 m/s to 30 m/s in 5 seconds.

Q1. What is the change in velocity?

Answer: 20 m/s

Q2. Calculate acceleration.

a = (v - u)/t

a = (30 - 10)/5 = 4 m/s²

Answer: 4 m/s²

8. Statement Based Questions

Q1. Acceleration can exist without change in speed.

Answer: True

Q2. A body moving in circular path has acceleration.

Answer: True

Q3. Velocity and acceleration always act in same direction.

Answer: False

9. Match the Columns

Column A	Column B
1. Acceleration	a. m/s²
2. Velocity	b. Vector quantity
3. Retardation	c. Negative acceleration
4. SI unit of acceleration	d. Rate of change of displacement

Answers:
1 → b
2 → d
3 → c
4 → a

10. Important Formula Questions

Q1. Write formula for average acceleration.

a = Δv / Δt

Q2. Write formula for instantaneous acceleration.

a = dv / dt

Q3. Write acceleration components in x and y directions.

ax = dvx/dt
ay = dvy/dt

Internal Links

Motion in a Straight Line Notes

Motion in a Plane Notes

Velocity and Speed Difference

Vector Quantities in Physics

Newton’s Laws of Motion

Kinematics Formula Sheet

NEET Physics Important Questions

CBSE Class 11 Physics Chapter Wise Notes

Projectile Motion Notes

Units and Dimensions Notes