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Physics of Motion

How and why do things move the way that they do? Be it a ball thrown in the air, or a train traveling across a track, everything follows specific rules when they're in motion. In physics, motion is described as a change in the position of an object throughout a period of time. Motion is capable of being both complex or simple, completely depending on what is being moved, and the environment it is in. The motion of an object is entirely affected by the forces acting on it at any given time, as well as forces that have acted on it in the recent past. For example, if I were to throw a ball and it was currently in mid-air, the push I gave that ball has already happened, but the effects of that force are still going to carry on until the motion of that ball has stopped.

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Physics of Motion

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How and why do things move the way that they do? Be it a ball thrown in the air, or a train traveling across a track, everything follows specific rules when they're in motion. In physics, motion is described as a change in the position of an object throughout a period of time. Motion is capable of being both complex or simple, completely depending on what is being moved, and the environment it is in. The motion of an object is entirely affected by the forces acting on it at any given time, as well as forces that have acted on it in the recent past. For example, if I were to throw a ball and it was currently in mid-air, the push I gave that ball has already happened, but the effects of that force are still going to carry on until the motion of that ball has stopped.

Motion is completely dependent on the things around it, meaning it is relative. The fact that an object is moving or stationary is only true if everything around the object is also stationary to the person observing the stationary object. For example, a flag may be stationary on the Moon from the eyes of an astronaut, but the Moon is also orbiting the Earth, which in turn is orbiting the Sun, etc.

In physics, motion can be defined and calculated using a few variables that all bodies in motion have or can have: velocity, acceleration, displacement, and time. Velocity is the same as speed but depends on the direction a body is traveling, and the same can be said for displacement in terms of distance. Acceleration is the same as velocity but describes how much of a change in speed occurs over some time, instead of how much of a change in distance.

Physics of Motion parabolic motion StudySmarterAn example of a parabolic curve of a ball in motion, StudySmarter Originals

Gravity is a force that causes acceleration!

What Formulas Do We Use When Calculating Motion?

When it comes to solving for any of these variables, we have five main equations that we can use:

The first is given as

x=vt

This is the most simple formula, meaning that distance is equal to speed multiplied by time, only taking into account direction as well. This can only be used when acceleration is equal to 0.

The second equation is one of the three kinematic equations. Note that it does not depend on position.

v=v0+at

Wherevis the final velocity of an object,v0is its starting velocity,ais the acceleration acting on it, andtis the time that passes during motion.

Our third equation is another kinematic equation. This time it does not depend on the final velocity.

x=(v0t)+12(at)2

Where ∆x is the displacement. This formula can only be used if the acceleration on the object is positive.

Our fourth equation below is an easier way to calculate displacement when you know both the starting and final velocities that act on the object.

x=12(v0+v)t

And our last equation is also the final kinematic equation. Note it does not depend on time :

v2=v02+2ax

Using these equations, we can solve for any particular variable we need to when studying an object in motion.

Since acceleration is a rate of change in velocity, We can find the average acceleration by taking the difference between our final velocity,vand initial velocity,v0and dividing that over our time interval,t.In other words,

a=v-v0t

Where the bar aboveasignifies average.

What Are the Laws of Motion?

The laws defining the behavior of motion were first discovered and written by English physicist Sir Isaac Newton, and they apply to almost everything in the universe.

Some things do not follow these laws, such as objects traveling at close to the speed of light which follow Einstein's theory of relativity, and things smaller than atoms, which follow behaviors defined in the field of quantum mechanics.

First Law: Law of Intertia

In simple terms, the first law of motion states that objects that are not being pushed will eventually come to rest. This means that if an object is experiencing no change in the forces acting on it, the object will tend towards a state of no movement, or rest.

This law was first discovered as a way to explain why don’t feel all the movement that goes on in the universe. We are standing on a planet that is spinning and moving around a sun that is moving around a galaxy, why can’t we feel all that movement? Well, since we are moving with the Earth as we are standing on it, we keep that motion constantly, and from our perspective, we are at rest.

Second Law: F = ma

The second law of motion shows us that rate of change of the momentum of an object is exactly the same as the force that is being applied to it. In other words, if an object has a mass ofm,the force acting on it is equal to its mass multiplied by its acceleration. This can be written as F=ma.

Third Law: Action & Reaction

The main way this law has been stated in the past is that every action has an equal and opposite reaction. This isn’t quite true, or just not quite informative enough. The third law of motion states that when two objects are to come into contact with each other, the forces that are applied to one another are equal in magnitude and opposite in direction.

For example, if an object is laying on the ground, the object is pushing down on the ground with its weight, which we know is a force. As we know of the third law of motion, we know that the ground is also pushing back, with a force equal to the weight and in the exact opposite direction.

What Are the Types of Motion?

Movement occurs in a multitude of different ways, and the forces that are applied to objects in these different states of movement vary greatly. Here are a few types of motion:

Linear Motion

Linear motion is straightforward, as it describes any form of movement that occurs in a straight line. This is the most basic form of motion. Nothing special or complicated has to occur when traveling from point A to point B.

Oscillating Motion

Oscillating motion is a back and forth movement. Only when this movement is consistent over time can it be considered an oscillating motion. Waves, including sound waves, ocean waves, and radio waves are examples of oscillating motion. Waves use oscillating motion to store information in their amplitudes. Other common examples of oscillating motion are pendulums and springs.

Physics of Motion oscillating motion StudySmarterA spring is a great example of an oscillating motion, Wikimedia Commons

Rotary Motion

Rotary motion will move in a circular pattern. The use of this motion has been incredibly beneficial to use over time, with the use of the wheel to transport things, as well as many other real-world examples.

A diagram of rotary motion, showing the direction of velocity and acceleration. Brews ohare CC BY-SA 3.0

Projectile Motion

Projectile motion is the movement of any object when thrown in an environment containing a gravitational field. If an object is thrown higher than horizontally, then the path it travels will form a curve, known as a parabola.

There is another lesser-known form of motion, irregular motion. This is a form of movement that doesn’t adhere to any fixed pattern, as the other forms of motion do.

Physics of Motion - Key takeaways

    • Motion in physics is a change in the position of an object or body over a time interval.

    • Motion is relative, meaning that whether something is in motion or not depends on the state of motion of the bodies it is surrounded by.

    • There are many formulas used to calculate variables that are relevant in motion, such as displacement, time, velocity, and acceleration.

    • There are three laws of motion, the law of inertia, the law of F=ma, and the law of action & reaction.

    • There are a few different types of motion, including linear, oscillating, and rotary motion.

Frequently Asked Questions about Physics of Motion

Motion in physics can be described as a change in the position of a body over a period of time.

The 3 laws of motion are the law of inertia, the law of F=ma, and the law of action & reaction.

The different types of motion in physics are linear motion, oscillating motion, rotary motion, and irregular motion.

Test your knowledge with multiple choice flashcards

Speed is a scalar quantity that describes the rate at which an object moves.Is this statement true or false? 

Delete this one please? A fast-moving item that has high speed, moves quickly and covers a short distance in a short period of time.Is this statement true or false? 

Physicists utilize the basic concepts of speed and velocity to describe the motion of objects in terms of : Distance and Time. Is this statement true or false? 

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