Displacement is the shortest path the body traverses compared to distance. The distance and displacement may be equal, but the displacement may be zero. Displacement can either be positive or negative, however, distance can never be negative. Displacement decreases as time passes, but the distance does not.

What is the Difference Between Distance and Displacement?

Displacement:

A displacement is measured in relation to a specific point.

A straight line is a line that connects the starting point to the end point.

That also makes it the shortest distance between the two points.

Displacement vectors often have a positive definition if the vectors are away from the reference point (aka datum) and a negative definition if they are toward.

In principle, an object can begin and end at the same position and have a displacement equal to zero.

Waves (and oscillations) are considered using displacement.

The oscillator’s equilibrium position is used as a reference point.

A positive displacement above the equilibrium (if this is appropriate) and a negative displacement below it.

Distance:

When an object moves without regard to direction, it is said to be at a distance.

The distance between two points is defined by how much ground the object has covered regardless of where it started and where it ended.

Let’s use the following diagram to understand the concept of distance

Distance vs Displacement

Distance

Displacement

Distance is a scalar quantity.

displacement is a vector quantity

The distance between two points is the length of the path between them.

Distance between two points is the direct length measured along the shortest path between them

Since distance has only a scalar magnitude, it doesn’t depend upon its direction

The magnitude and direction of displacement make displacement a vector quantity

Only positive distances can be measured

There are several types of displacement, including positive, negative, and even zero

Is Distance is a Scalar Quantity Or Vector Quantity?

Actually yes, Distance is a scalar quantity but not a vector quantity.

Is Displacement is a Scalar Quantity Or Vector Quantity?

Yes, displacement is a vector quantity but not a scalar quantity and.

Mechanics is the general study of the relationship between motion, force, and energy. This subject is divided into three parts: kinematics, dynamics, and statics. The study of Kinematics is concerned with the motion of objects without considering the forces and energies that may be involved.

we should know that there is neither absolute rest nor absolute motion. Rest and motion are relative concepts.

Objects that change position is called in motion, while objects that remain still are called at rest. However, perspective is very important here. An atom,

For example, is always in motion, but when we see an object in the macro world it appears to be at rest. Therefore, motion and rest both depend primarily on the frame of reference of the observer.

In this topic, we will fully discuss rest and motion which will make your concept clearer.

Motion: A moving object is one whose position changes as it changes in relation to its surroundings and time.

or

A body that does not maintain its size in one place and moves is in a state of motion.

Examples and concepts of Rest in Physics

If the book is not disturbed, it will not change its position on the table, The book is in a state of rest.

There is no change in the position of a bench at rest in a park fixed under a tree.

Consequently, when a body is at rest, it is not changing its position with respect to its surroundings.

Examples of Motion in Physics with Basic Concept

The motion of a car occurs when it moves toward, or away from, a tree or lamppost on a roadside.

As flying birds change positions in relation to stationary objects such as trees, they are also considered to be in motion.

1

Moving Bus

2

Rotating Ferris wheel

3

A person walking on the Road

4

dancing

Therefore, a body is said to be in motion when its position in reference to the surroundings changes over time.

Relation Between Rest and Motion in Physics

While a body is at rest or moving, it can be at rest or moving simultaneously. When compared to one set of objects, a body can move while at rest when compared to another set of objects. Therefore, motion and rest are relative concepts. Below are some examples to illustrate this concept.

Speed: A moving body’s speed is defined as the distance it covers in a unit of time. There are uniform and nonuniform speeds. The units are meters per second \frac ms

Speed\;=\;\frac{dis\tan ce}{time}

Position-time graphs are commonly used to display speed.

Non-Uniform velocity: If the body moves with non-uniform velocity in a particular direction or changes directions over an equal period of time, it is said to be moving with non-uniform velocity.

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Average velocity = Time displacement / Total Time Taken

Define Rest in Physics: When a body doesn't change its position with respect to its surrounding, it means that the body is in Rest. Surrounding means the locations in the neighborhood of that frame in which a few are extra (diverse) items are present.

Define Motion and Explain with Example?

On the other aspect a frame or Body is called in Motion, if it modifications its role with recognize to its surrounding. It method that the body isn't always in relaxation as it adjustments its position.

What are the five Examples of Motion in Physics?

If a body does now not exchange its function, it is said to be on relaxation, and if it adjustments its role it’s far called movement. The examples of movement encompass: running, biking, jumping, swimming, consuming, ingesting, gambling, writing, typing, shifting motors, throwing balls.

Explain Rest and MotionWith Example in Physics

Someone sitting in a moving vehicle is at rest due to the fact she or he is not changing his or her position with admiration to different men and women who are also sitting in the car. But to an observer outdoor the car, the man or woman’s insides of the automobile are in movement.

Define Rest and Motion with Examples in Physicsand Types of Motion

A few objects circulate alongside a straight line, a few circulate in some different methods.. In step with this concept, there are three types of motion which might be:

Translatory movement (linear , random and circular)

Rotatory motion

Vibratory motion

What is meant by Translatory Motion?

In simple words: In translational motion, a frame or body movements along a line. objects move without any rotation. This line could be straight. It can also be curved.

Which of these is an example of Translatory Motion?

The motion of a Ferris wheel is a common instance of translator motion. A strolling girl, a stone falling immediately, and a moving vehicle bus, etc..

What are the three types of Translatory Motion?

⇒linear motion

⇒random motion

⇒circular motion

Define Linear motion in Physics?

Whilst an object moves in an instant direction, its motion is stated to be linear movement.

Examples of linear Motion

The movement of an airplane is a pleasant example of linear movement because of its actions in a straight direction.

What is Linear Motion in General form

In nature, a body could be said to be in motion if it adjustments its position with appreciation to a reference factor and time. Even as describing the linear motion we require the best one coordinate axis at the side of time to explain the motion of a particle then it is stated to be in a linear movement or rectilinear movement. In linear motion, the particles will pass from one point to some other factor both in an instant line or a curved route. Relying upon the direction of movement linear movement is further subdivided divided as:

Rectilinear Movement – it’s miles a route of motion in a directly line.

Curvilinear Motion – it’s far a path of movement in a curved line.

Define Random motion in Physics?

While a body 0r any object moves in an abnormal manner, its motion is stated to be a random movement. It way that the body’s movement is disordered.

Examples of Random Motion

The motion of molecules of oxygen, movement of birds flying in the sky. Its simple instance could be determined in our environment i. E., the motion of a kite inside the sky and movement of clouds, and many others.

What is Circular Motion?and Example

When a frame(body) or any item actions in a round path, its motion is said to be round. In simple phrases, the motion or movement of an item in a round direction is said to be around the motion of that body of the object.

Examples of circular motion

A toy education transferring on a circular track is the maximum commonplace example and planets revolving across the primary source of heat and mild (solar).

Rotatory motionDefinitionwith example

In simple words: The spinning motion of a body or an item around its axis is stated to be the rotatory motion of that frame or item. Axis means a particular line round which a body or object rotates.

Example of Rotatory motion

It is a very common example is the movement of a wheel approximately its axis and that of a steerage wheel.

Vibratory motionDefinitionwith example

In simple words: To and for a motion of an object or any frame body approximately its mean function is stated to be vibratory motion.

Example of vibratory motion

The motion of a toddler at the same time as sitting on a swing. The motion of the pendulum of a wall clock is likewise an essential example of vibratory motion. Its most simple example from our daily life is the vibration of a cellular smartphone.

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Objects travel a certain distance in a given time frame and this is called their speed.

Formula:

Define Velocity:

Basically, velocity is just how fast a person’s displacement changes.

Formula:

which explains the information needed to calculate speed and velocity in Physics?

Distance covered and time taken are required to calculate speed.

it is denoted by v and its formula is:

v\;=\;\frac st

Where S is Distance and t is time in Formula

It is necessary to take time into consideration when calculating the velocity of the moving body.

it is also denoted by v and its formula is: v\;=\;\frac dt

when is the average velocity of an object equal to the instantaneous velocity?

The average velocity of an object is equal to its instantaneous velocity if its acceleration is zero. There cannot be any change in speed or direction of an object if its acceleration is zero. It follows that if an object is moving in the same direction or at zero acceleration, its speed or direction can’t change.

which pair of sentences is describing the same velocity?

Vehicles moving in opposite directions have the same velocity.

Describe how position velocity and acceleration are related to each other?

Essentially, acceleration is the rate at which velocity changes, while velocity is the rate at which position changes. Thus, velocity, acceleration, and position are connected.

The main difference between speed and velocity involves

Speed is defined as: The distance covered by an object in a unit of time is said to be its speed.

speed formula:

However, Velocity is defined as: The rate of change of displacement of anybody is said to be velocity.

which explains the information needed to calculate speed and velocity?

For calculation of speed, we require distance covered and taken time

it is denoted by v and its formula is:

v\;=\;\frac st

S is Distance and t is time.

However, For the calculation of velocity, we require displacement of that moving body and take time.

it is also denoted by v and its formula is: v\;=\;\frac dt

when is the average velocity of an object equal to the instantaneous velocity?

If the acceleration of an object is zero then the average Velocity is equal to instantaneous velocity. And if the acceleration of an object is zero there can be no change in speed or direction of that object.

which pair of sentences is describing the same velocity?

A moving car and a truck have the same velocity.

Describe how position velocity and acceleration are related to each other?

Actually, acceleration is a rate of change of velocity and velocity is a rate of change of position. So the position, velocity, and acceleration are related to each other.