An experiment that illustrates how to calculate and find a compound center of percussion pendulums. Fits on to the Free Vibrations Test Frame.
Vibration
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Item Number:TM163 -
Item Number:TM162Experiment for studying simple harmonic motion and the factors that affect the period of oscillation of bifilar and trifilar pendulums. Fits on to the Free Vibrations Test Frame.
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Item Number:TM1016VBenchtop apparatus that investigates the free and forced vibrations of a rigid beam with a spring, and a simply supported beam. Demonstrates Rayleigh's approximation and Dunkerley's method.
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Item Number:TM165An experiment that demonstrates the oscillatory motion of a disc attached to a slender rod. Fits on to the Free Vibrations Test Frame.
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Item Number:TM167An experiment that demonstrates the oscillatory motion of a rigid beam, pivoted at one end and suspended by a spring at the other. Fits on to the Free Vibrations Test Frame.
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Item Number:TM164Experiment that uses simple harmonic motion theory to demonstrate how to calculate the frequency of oscillation of simple mass-spring systems; demonstrates Hooke's law. Fits on to the Free Vibrations Test Frame.
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Item Number:TM166An experiment that uses the fundamental theory and Rayleigh's approximation to calculate the frequency of oscillation of a cantilever. It also utilizes Dunkerley's method to predict the 'beam only' frequency. Fits on to the Free Vibrations Test Frame.
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Item Number:TM160 - Base UnitA sturdy bench top frame for use with the Free Vibrations experiment modules.
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Item Number:TM161Experiment for studying simple harmonic motion and the factors that affect the period of oscillation of pendulums. Fits on to the Free Vibrations Test Frame.
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Item Number:TM16SThis package includes all products from the Vibration section of TecQuipment’s Theory of Machines range (TM160–TM167 and TM1016). It offers multiple experiments in both free and forced vibrations, and includes our Versatile Data Acquisition System (VDAS® mkII).
