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Oscillations driven
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Part 1 of ebook "Physics of oscillations and waves: With use of Matlab and Python" provides readers with contents including: Chapter 1 - Introduction; Chapter 2 - Free and damped oscillations; Chapter 3 - Forced oscillations and resonance; Chapter 4 - Numerical methods; Chapter 5 - Fourier analysis; Chapter 6 - Waves; Chapter 7 - Sound; Chapter 8 - Dispersion and waves on water; Chapter 9 - Electromagnetic waves;...
304p
dangsovu
20-10-2023
10
7
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Lecture Physics A2: Oscillations. After studying this section will help you understand: simple harmonic motion, the physical pendulum, damped oscillations, driven oscillations and resonance, using complex numbers to solve the oscillator equations,...
12p
xusong
21-07-2021
21
1
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This work concerns the cause of glycolytic oscillations in yeast. We analyse experimental data as well as models in two distinct cases: the relaxation-like oscillations seen in yeast extracts, and the sinusoidal Hopf oscillations seen in intact yeast cells. In the case of yeast extracts, we use flux-change plots and model analyses to establish that the oscillations are driven by on⁄off switching of phosphofructokinase.
13p
awards
06-04-2013
29
3
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A cam is a mechanical componentthat is capable of transmitting motion toa follower by direct contact. The driver iscalled a cam, and the driven member iscalled the follower. The follower canremain stationary, translate, oscillate, orrotate.
42p
b2d18105
25-10-2011
34
3
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A cam is a mechanical componentthat is capable of transmitting motion toa follower by direct contact. The driver iscalled a cam, and the driven member iscalled the follower. The follower canremain stationary, translate, oscillate, orrotate.
42p
louis18107
24-08-2011
57
4
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CHAPTER 7 CAM, TOGGLE, CHAIN, AND BELT MECHANISMS CAM BASICS A cam is a mechanical component that is capable of transmitting motion to a follower by direct contact. The driver is called a cam, and the driven member is called the follower. The follower can remain stationary, translate, oscillate, or rotate. The motion is given by y = f(θ), where y = cam function (follower) displacement (in.). f = external force (lb), and θ = wt – cam angle rotation for displacement y, (rad). Figure 1 illustrates the general form of a plane cam mechanism. It consists of two shaped members A and...
42p
medinova
26-10-2010
73
9
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