Angular Velocity and Angular speed ?

In summary: So "velocidad" is the most appropiate word to translate speed.In summary, the terms "angular speed" and "angular velocity" are often used interchangeably, but technically they are not the same. Angular speed is a scalar quantity, representing only the magnitude value, while angular velocity is a vector quantity that also includes direction. However, in 2-dimensional objects, the direction of the angular velocity is usually perpendicular to the plane of the object, making it similar to angular speed. In Spanish, the word "velocidad" is used for both speed and velocity, causing confusion in translations.
  • #1
chickens
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I have a book that gives a formulae Angular Speed as same as the Angular Velocity...is that true?

From what i understand, speed is a scalar quantity...so it only have the magnitude value while velocity is a vector quantity which also shows the direction.

Also, will the average angular speed = average angular velocity? The same book states its the same...but I have doubt on that statement ...could anyone help me in this? Thanks in advance :smile:
 
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  • #2
You're right, the angular velocity should have a direction. If I recall correctly, you can use the right-hand-rule: if you curl your fingers in the direction that it's rotating and stick your thumb out, the direction of your thumb is the direction of the angular velocity. So, for example, if you're looking at a clock head on, your right hand fingers will curl clock-wise (they better if you're looking at a clock!) and your thumb will point towards the clock, through the wall, so the direction of angular velocity of the hands is through the wall.
 
  • #3
In English you have two terms for the same thing, speed as a quantity and velocity as a vector (curiously in spanish, a language with a huge vocabulary, we use "velocidad" for that two things) and you can distinguish. Most of books which were not english original, may be bad translated. Its very frecuently...

The major part of physics books that I have are Spanish-translated, so there ary many concepts that are not very good translated, such as "speed" or "velocity" that we can't distinguish :)

Bye
 
  • #4
MigUi:
Do you mean it doesn't exist other "velocity"-words in Spanish??
(For example: "celeridad" or something..)
 
  • #5
Yep, I think AKG has it. The formula your book has is probably one for the magnitude of the angular velocity, which is the same as the angular speed. The direction of the angular velocity is as AKG said, using the right-hand convention, likewise the direction of the angular momentum.
 
  • #6
chickens said:
I have a book that gives a formulae Angular Speed as same as the Angular Velocity...is that true?

From what i understand, speed is a scalar quantity...so it only have the magnitude value while velocity is a vector quantity which also shows the direction.

Also, will the average angular speed = average angular velocity? The same book states its the same...but I have doubt on that statement ...could anyone help me in this? Thanks in advance :smile:

Technically, they're not the same. But, if you're analyzing 2-dimensional objects (circles, ellipses, etc), you're probably better off treating them as the same.

For 2-dimensional objects lying in the fundamental plane, the angular velocity vector only has one component - and it is perpendicular to the plane of the circle/ellipse (either up or down, depending on whether the rotation is counterclockwise or clockwise).

For example, if you're trying to find linear velocity on a circle of radius r and an angular velocity w (closest I can come to little omega in text), the 'proper' way is to take the cross product of vectors w and r, or multiply the scalar value of w by the scalar value of r times the sine of the angle between the two vectors, or, knowing the sine of 90 degrees is 1, you could just use the scalar equation: radius length times angular speed (usually the most sensible way).
 
  • #7
MiGUi said:
In English you have two terms for the same thing, speed as a quantity and velocity as a vector (curiously in spanish, a language with a huge vocabulary, we use "velocidad" for that two things) and you can distinguish. Most of books which were not english original, may be bad translated. Its very frecuently...
These is even more so in the computer science field here in Latin America. I remember reading through two database books (one translated in Mexico and the other in Spain). The word for tuple in the 'mexican' book was "tuple" while in the 'spanish' book it was "tupla". Another example is the word key which the 'mexican' book translated as "llave" and the 'spanish' book as "clave". Talk about confusing.

Speed in spanish translates to 'rapidez' while velocity is 'velocidad'. Why people decide to use only 'velocidad' is beyond me. This reminds me when I was learning german and I asked my dad (who is german) what speed is in german and he said 'Geschwindigkeit'. I later found out that he was incorrect because the proper word is 'Tempo'. I guess for the sake of simplicity people use one term to refer to both things.
 
  • #8
Yes, but "rapidez" is not used as common as speed in english
 

1. What is the difference between angular velocity and angular speed?

Angular velocity refers to the rate of change of angular displacement over time, while angular speed refers to the magnitude of the angular velocity without regard to direction. In other words, angular speed is a scalar quantity while angular velocity is a vector quantity.

2. How is angular velocity measured?

Angular velocity is typically measured in radians per second (rad/s) in physics. In some cases, it may also be measured in degrees per second (deg/s) or revolutions per minute (rpm). The direction of angular velocity is usually indicated by a positive or negative sign.

3. What factors affect angular velocity?

Angular velocity is affected by the angular acceleration and the moment of inertia of an object. The moment of inertia is a measure of an object's resistance to rotational motion, and it depends on the shape, mass, and distribution of mass of the object.

4. How is angular velocity related to linear velocity?

Angular velocity and linear velocity are related by the radius of rotation. The linear velocity of an object is equal to the angular velocity multiplied by the distance from the axis of rotation to the point on the object. This relationship is known as the tangential velocity.

5. What are some real-life examples of angular velocity?

Examples of angular velocity in everyday life include the rotation of a bicycle wheel, the spinning of a top, the motion of a Ferris wheel, and the Earth's rotation. In sports, the speed of a pitcher's arm in baseball or a skater's spin in figure skating are also examples of angular velocity.

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