Topic 3 Review.pdf

Full Transcript

Topic 3: Position and Motion

Name _________________
Class __________________
Roll Number __________
Study Guide: Position and Motion
Key Concepts

1. Position

Definition: Position refers to the specific location of an object at a given point in time.
Reference Point: A fixed point used to define the position of an object. The choice of
reference point can affect the description of an object's position.
Coordinate System: Often used to define position in space, typically with axes such as
x, y (in 2D) or x, y, z (in 3D).

2. Motion

Definition: Motion is the change in position of an object over time.
Types of Motion:
o Linear Motion: Movement in a straight line.
o Rotational Motion: Movement around a central point or axis.
o Oscillatory Motion: Back-and-forth movement in a regular pattern (e.g.,
pendulum).
o Circular Motion: Movement along a circular path.

3. Equations and Relationships

Position
o Position in a 1D space can be described using a single coordinate, e.g., 𝑥
o In 2D space, position is described by two coordinates, (𝑥,𝑦)
o In 3D space, position is described by three coordinates, (𝑥,𝑦,𝑧)
Motion
o Distance: Total path length traveled by an object.
o Scalar Quantity: Only magnitude, no direction.
o Example: If an object moves 5 meters east, then 3 meters west, the total
distance is 8 meters.
Displacement: Straight-line distance between the initial and final positions of an
object, with direction.
o Vector Quantity: Has both magnitude and direction.
o Example: If an object moves 5 meters east, then 3 meters west, the
displacement is 2 meters east.

4. Graphical Representation

Position-Time Graph (x-t graph):
o Shows how position changes over time.
o Slope of the line represents velocity.
o A straight horizontal line indicates the object is stationary.
o A straight sloped line indicates constant velocity.
o A curved line indicates changing velocity (acceleration).
Displacement-Time Graph:
o Similar to position-time graph but focuses on displacement.

หน้า 1
5. Conceptual Understanding

Relative Motion
o Understanding that motion is always measured relative to a chosen reference
point.
o Example: A passenger walking inside a moving train has a different motion
relative to the train compared to an observer outside the train.
Rest and Motion
o An object is at rest if its position does not change with respect to a reference
point.
o An object is in motion if its position changes with respect to a reference
point.

Study Guide: Position and Motion
Key Concepts

1. Speed

Definition: Speed is the rate at which an object covers distance.
Formula: Speed = Distance/Time
Units: Commonly measured in meters per second (m/s), kilometers per hour (km/h),
or miles per hour (mph).
Types:
o Average Speed: Total distance traveled divided by the total time taken.
o Instantaneous Speed: Speed of an object at a specific moment in time.

2. Velocity

Definition: Velocity is the rate of change of displacement with respect to time and
includes direction.
Formula: Velocity = Displacement/Time
Units: Measured in meters per second (m/s).
Vector Quantity: Includes both magnitude and direction.
Difference from Speed: Speed is scalar (only magnitude), while velocity is a vector
(magnitude and direction)

3. Acceleration

Definition: Acceleration is the rate of change of velocity with respect to time.
Formula: Acceleration = Δ Velocity/ Time
where ΔVelocity = Final Velocity–Initial Velocity
Units: Measured in meters per second squared (m/s²).
Types:
o Positive Acceleration: Increase in velocity.
o Negative Acceleration (Deceleration): Decrease in velocity.
o Uniform Acceleration: Constant rate of change of velocity.
o Non-Uniform Acceleration: Variable rate of change of velocity.

หน้า 2
4. Graphical Analysis

Velocity-Time Graph:
o Slope represents acceleration.
o Area under the curve represents displacement.
o A horizontal line indicates constant velocity.
o A sloped line indicates constant acceleration.
Acceleration-Time Graph:
o Area under the curve represents change in velocity.
o A horizontal line indicates constant acceleration.
o A sloped line indicates changing acceleration.

Study Guide: Force and Newton’s Law
Study Guide: Force and Newton’s Law

1. Force

Definition: A force is a push or pull upon an object resulting from its interaction with
another object.
Units: Measured in Newtons (N), where 1 Newton = 1 kg·m/s².
Types of Forces:
Contact Forces: Forces that act on objects through physical contact (e.g., friction,
tension, normal force).
Non-Contact Forces: Forces that act on objects without physical contact (e.g.,
gravitational force, electromagnetic force).

2. Balanced and Unbalanced Forces

Balanced Forces:
o Definition: When all the forces acting on an object are equal in magnitude
and opposite in direction, resulting in a net force of zero.
o Effect: An object with balanced forces acting on it will either remain at rest or
continue to move at a constant velocity.
o Example: A book resting on a table with gravity pulling it down and the table
pushing it up with equal force.
Unbalanced Forces:
o Definition: When the forces acting on an object do not cancel out, resulting in
a net force that is not zero.
o Effect: An object with unbalanced forces acting on it will accelerate in the
direction of the net force.
o Example: Pushing a stationary car where the applied force overcomes friction,
causing the car to move.

หน้า 3
3. Net Force

Definition: The net force is the vector sum of all the forces acting on an object.
Calculation: 𝐹net=∑𝐹𝑖 (Sum all of forces)
Concepts:
o When multiple forces act on an object, they can be combined to find a single
net force.
o The net force determines the object's acceleration according to Newton's
second law.

4. Newton's Laws of Motion

Newton's First Law (Law of Inertia):
o Statement: An object at rest stays at rest, and an object in motion stays in
motion at a constant velocity, unless acted upon by a net external force.
Concepts:
o Inertia: The tendency of an object to resist changes in its state of motion.
o Equilibrium: When the net force acting on an object is zero, the object is in a
state of equilibrium.
Newton's Second Law (Law of Acceleration):
o Statement: The acceleration of an object is directly proportional to the net
force acting on it and inversely proportional to its mass.
o Formula: 𝐹net=𝑚𝑎
o where 𝐹net is the net force, 𝑚 is the mass, and 𝑎 is the acceleration.
o Units: Force (N), Mass (kg), Acceleration (m/s²).
Newton's Third Law (Action and Reaction):
Statement: For every action, there is an equal and opposite reaction.
Concepts:
o Forces always occur in pairs.
o The forces are equal in magnitude and opposite in direction.

หน้า 4