Simple harmonic motion problem.

AI Thread Summary
The discussion focuses on deriving expressions for velocity and acceleration in simple harmonic motion using the equation x = x₀cos(2πt/T). The acceleration is given as a = –(2π/T)²x₀cos(2πt/T), and participants discuss how to find maximum values for velocity and acceleration. To determine these maximum values, it is emphasized that the maximum of sine and cosine functions is 1, allowing simplification of the expressions. There is confusion regarding the correct calculations for maximum acceleration and velocity, with suggestions to focus on absolute values and the amplitude x₀. Ultimately, the conversation highlights the importance of correctly applying derivatives and understanding the characteristics of oscillatory motion.
hot2moli
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x=xocos(2pi t/T), where xo is the maximum amplitude of oscillation and T is the period of oscillation.

Find expressions for the velocity and acceleration of a car undergoing simple harmonic motion by differentiating x.
[Answer: a=–(2pi/T)^2(Xo)cos(2pi t/T).]

QUESTION:
If xo = 0.3 m and T = 3 s, what are the maximum values of velocity and acceleration?


I do not know the expression for velocity. ANNDD I do not know (t), so even just solving for acceleration I have a problem because I face two unknowns.
 
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If you found the expression for acceleration, then you should be able to find the expression for velocity.

HINT: Take one less derivative.

For the maximum values, you have to plug in the maximum values of cosine and sine (whichever one appears in the formula) So, the question becomes, what are the maximum values for sine and cosine? Remember, the argument of the sine or cosine shouldn't matter.
 
Recall that for any oscillation, A*cos(something) or A*sin(something) that A is the maximum value that it can possibly have since cos/sin can only go as high a "1". This is why "A" is called the amplitude of the oscillation.

Find velocity and acceleration by simply finding the first derivative of x with respect to t and the second derivative with respect to t. Whatever is out in front of those sinusoids are the max values.
 
so I can disregard sine/cos since it would just be -1/1... therefore I only focus on the bginning of the equation

a=–(2pi/T)^2(Xo)

And i would just plug in getting 1.3m/s2 but that is incorrect..
 
and then would velocity just be:
2(2pi/T) = Vmax
 
hot2moli said:
so I can disregard sine/cos since it would just be -1/1... therefore I only focus on the bginning of the equation

a=–(2pi/T)^2(Xo)

And i would just plug in getting 1.3m/s2 but that is incorrect..

Try dropping the negative sign. They are probably looking for the absolute maximum acceleration.

hot2moli said:
and then would velocity just be:
2(2pi/T) = Vmax

This is not correct. The answer should involve x_o.
 

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