8.2 Circular Motion: Position and Velocity Vectors

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Many people wonder why radians do not appear when we have radians * meters. Here is an attempt at an explanation:
Let s denote the length of an arc of a circle whose radius measures r.
If the arc subtends an angle measuring β = n°, we can pose a rule of three:
360° _______ 2 • 𝜋 • r
n° _______ s
Then
s = (n° / 360°) • 2 • 𝜋 • r
If β = 180° (which means that n = 180), then
s = (180° / 360°) • 2 • 𝜋 • r
The units "degrees" cancel out and the result is
s = (1 / 2) • 2 • 𝜋 • r
that is, half of the circumference 2 • 𝜋 • r
s = 𝜋 • r
If the arc subtends an angle measuring β = θ rad, we can pose a rule of three:
2 • 𝜋 rad _______ 2 • 𝜋 • r
θ rad _______ s
Then
s = (θ rad / 2 • 𝜋 rad) • 2 • 𝜋 • r
If β = 𝜋 rad (which means that θ = 𝜋), then
s = (𝜋 rad / 2 • 𝜋 rad) • 2 • 𝜋 • r
The units "radians" cancel out and the result is
s = (1 / 2) • 2 • 𝜋 • r
that is, half of the circumference 2 • 𝜋 • r
s = 𝜋 • r
If we take the formula with the angles measured in radians, we can simplify
s = (θ rad / 2 • 𝜋 rad) • 2 • 𝜋 • r
s = θ • r
where θ denotes the number of radians (it does not have the unit "rad").
θ = β / (1 rad)
and θ is a dimensionless variable.
However, many consider θ to denote the measure of the angle and for the example believe that
θ = 𝜋 rad
and radians * meter results in meters.
Mathematics and Physics textbooks state that
s = θ • r
and then
θ = s / r
It seems that this formula leads to the error of believing that
1 rad = 1 m/m
and that the radian is a dimensionless derived unit as it appears in the International System of Units (SI).
In the formula
s = θ • r
the variable θ is a dimensionless variable, it is a number without units, it is the number of radians.
When confusing what θ represents in the formula, some mistakes are made in Physics in the units of certain quantities, such as angular speed.
My guess is that actually the angular speed ω is not measured in rad/s but in (rad/rad)/s = 1/s = s^(-1).
On the web page ocw.mit.edu/courses/8-01sc-classical-mechanics-fall-2016/pages/week-3-circular-motion/8-2-circular-motion-position-and-velocity-vectors/, you say:
"Radians
One way to measure an angle is in radians. A full circle has 2𝜋 radians.
This week, we will use radians to measure the angles, so all angles will have units of radians, angular velocity will have units of radians/s, and angular acceleration will have units of radians/s^2.
If we multiply these by a distance, such as r, the units will be m, m/s, or m/s^2".
My guess is that actually the angular speed ω is not measured in rad/s but in (rad/rad)/s = 1/s, and the angular acceleration is not measured in rad/s^2 but in (rad/rad)/s^2 = 1/s^2.
If we say that the measure β of the angle is θ radians, we mean β = θ rad, and θ is the number of radians (it does not have the unit "rad").
For emphasis we can say that θ is measured in rad/rad, since θ = β / (1 rad) and θ is a dimensionless variable.
On the web page ocw.mit.edu/courses/8-01sc-classical-mechanics-fall-2016/mit8_01scs22_chapter6.pdf, you justify the result of equation 6.2.14 (p. 5) by saying that "the length of the chord approaches the arc length".
This means that you use the equation s = θ • r, without taking into account that in it the variable θ is dimensionless.

What I consider a mistake, is present in the literature, it is not only in those web pages.

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Needs more explanation in the part: r hat(t)= cos theta (t) (i hat)+...
Why cos or sin (theta t)??
Did you mean time t is with theta? Or just multiplied with? Theta (t) is angular displacement over time t.

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In case of circular motion, at what value of angle (in degree) the distance travelled is equal to the thrice of radius of the circle?

Does θ(t) has properties of a vector?

Is there a video that covers the same topic but lets me find the velocity vectors in 3 dimensions?

2:54 is that equation supposed to be r̂(t) = cos( θ(t) )*î + sin( θ(t) )*ĵ , where θ(t) is a function which gives the angle at any given time and r̂(t) is the r̂ vector at any given time?

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In 1:33 why not theta hat in cos ?

Is angular displacement a vector quantity ?

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Like a record, baby, right 'round, 'round, 'round

What is he drawing on? And is he writing everything backwards so it appears normal to us?

Let's take a moment to appreciate this guy is writing backwards on glass...!

Jigsaw

U went kind of strapped, is more simple than this

But what r vector represents?