Lissajous Patterns in CRO for Measurement of Phase & Freq
Display for the Lissajous (a), Limb model (b), and Lissajous + template
Lissajous figures: From math to measurement to art, Part 1
VIDEO
Sand pendulums
EMI Experiment: Lissajous pattern for Unknown frequency Measurment
Understanding Oscilloscopes
Application of Lissajous Figures
#48: Basics of Lissajous Patterns on an Oscilloscope
Discover the Mesmerizing Le Joujou Figures
COMMENTS
Experiment No.11 Frequency and Phase Angle Measurement
Use of Lissajous Patterns to Calculate Phase Shift: Lissajous patterns are obtained on the scope simultaneously by applying the two sinusoidal inputs to be compared at the vertical and horizontal channels.
Activity: The Lissajous pattern, A Classic phase …
Lissajous (pronounced LEE-suh-zhoo) figures were discovered by the French physicist Jules Antoine Lissajous. He would use sounds of different frequencies to vibrate a mirror. A beam of light reflected from the mirror would trace patterns …
Lissajous Patterns of CRO or Cathode Ray Oscilloscope
When the horizontal and vertical deflection plates of a CRO (Cathode Ray Oscilloscope) are connected to two sinusoidal voltages, the patterns that appear on the …
EXPERIMENT 9: LISSAJOUS FIGURES
EXPERIMENT. Part A -- Phase-Shift Network. The RC phase-shift network in Fig. E9-1 is prewired in a box, with R = 1 kΩ and C = 110 nF. Your task is to measure the amplitude and …
Lissajous curve
A Lissajous curve /ˈlɪsəʒuː/, also known as Lissajous figure or Bowditch curve /ˈbaʊdɪtʃ/, is the graph of a system of parametric equations which describe the superposition of two perpendicular oscillations in x and y directions of different angular frequency (a and b). The resulting family of curves was investigated by Nathaniel Bowditch in 1815, and later in more detail in 185…
Measurements using Lissajous Figures
These patterns will vary based on the amplitudes, frequencies and phase differences of the sinusoidal signals, which are applied to both horizontal & vertical deflection plates of CRO. The …
Frequency Measurement by Lissajous Method
One of the quickest methods of determining frequency is by using Lissajous patterns produced on a screen. This particular pattern results when sine waves are applied simultaneously to both pairs of the deflection plates.
IMAGES
VIDEO
COMMENTS
Use of Lissajous Patterns to Calculate Phase Shift: Lissajous patterns are obtained on the scope simultaneously by applying the two sinusoidal inputs to be compared at the vertical and horizontal channels.
Lissajous (pronounced LEE-suh-zhoo) figures were discovered by the French physicist Jules Antoine Lissajous. He would use sounds of different frequencies to vibrate a mirror. A beam of light reflected from the mirror would trace patterns …
When the horizontal and vertical deflection plates of a CRO (Cathode Ray Oscilloscope) are connected to two sinusoidal voltages, the patterns that appear on the …
EXPERIMENT. Part A -- Phase-Shift Network. The RC phase-shift network in Fig. E9-1 is prewired in a box, with R = 1 kΩ and C = 110 nF. Your task is to measure the amplitude and …
A Lissajous curve /ˈlɪsəʒuː/, also known as Lissajous figure or Bowditch curve /ˈbaʊdɪtʃ/, is the graph of a system of parametric equations which describe the superposition of two perpendicular oscillations in x and y directions of different angular frequency (a and b). The resulting family of curves was investigated by Nathaniel Bowditch in 1815, and later in more detail in 185…
These patterns will vary based on the amplitudes, frequencies and phase differences of the sinusoidal signals, which are applied to both horizontal & vertical deflection plates of CRO. The …
One of the quickest methods of determining frequency is by using Lissajous patterns produced on a screen. This particular pattern results when sine waves are applied simultaneously to both pairs of the deflection plates.