The formula for R, The rate of intake:
[tex]\large{\boxed{\bold{y=0.89~sin\frac{2\pi.t}{T}}}}[/tex]
Further explanation
Waves are generated by vibration sources. Waves transfer energy from one place to another.
Based on the direction of the wave towards the vibration, the waves are grouped into transverse waves and longitudinal waves.
Transverse waves are waves whose direction is perpendicular to the vibration direction
Longitudinal waves are waves whose propagation direction is in the direction of their vibration
While based on the presence or absence of a medium, waves are divided into mechanical waves (requires a medium) and electromagnetic waves (do not require a medium)
While waves based on whether or not the amplitude changes are divided into traveling waves (with a fixed amplitude) and stationary waves (with the amplitude changing)
The general equation of simple harmonic vibration deviation with an initial angle θ° = 0° is:
[tex]\large{\boxed{\bold{y=A~sin\frac{2\pi.t}{T}}}}[/tex]
Where :
A = amplitude
t = time
T = period
The rate of intake, R, during the respiratory cycle for a person at rest is equal to the deviation from simple harmonic vibrations
Known T = period = 6 s
and the rate of intake is 0.89 liters per second at 1.5 seconds
So we can enter it in the equation
A = 0.89
t = 1.5 s
T = 6
y = A sin 2π.t / T
0.89 = A sin 2π.1.5 / 6
sin 2π.t / T = 1
so A = 0.89
The equation:
y = 0.89 sin 2π.t / T
Learn more
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Keywords: simple harmonic motion, wave, The rate of intake
