100 Examples of sentences containing the common noun "sinewave"

Definition

A "sinewave" is a mathematical curve that describes a smooth periodic oscillation. It is a continuous wave that oscillates between a maximum and minimum value, typically used to represent sound waves, alternating current (AC) in electrical engineering, and various other periodic phenomena in physics and mathematics.

Synonyms

• Sinusoidal wave
• Sinusoid
• Sine curve

Antonyms

• Square wave
• Triangular wave
• Sawtooth wave

Examples

1. The engineer used a sinewave to illustrate the AC voltage in the circuit.
2. In physics, we often analyze the properties of a sinewave to understand sound frequency.
3. The graph of a sinewave repeats every 360 degrees.
4. To simulate the sound, the software generated a sinewave.
5. The oscillation of a sinewave can be described using its amplitude and frequency.
6. He adjusted the parameters to create a smoother sinewave.
7. The audio engineer relied on a sinewave generator for testing speakers.
8. A pure tone can be represented as a single sinewave.
9. The sinewave function is fundamental in trigonometry.
10. The concept of a sinewave is crucial for understanding wave mechanics.
11. The radio transmission operated at a frequency that produced a sinewave.
12. Researchers often model natural phenomena using a sinewave approach.
13. The visual representation of a sinewave looks like a smooth curve.
14. The physics class demonstrated how to derive a sinewave from a circular motion.
15. His project involved creating a sinewave oscillator for his experiments.
16. The sound engineer preferred using a sinewave for calibration.
17. The analysis showed that the signal resembled a sinewave.
18. The sinewave is essential for understanding harmonic motion.
19. To visualize sound, the artist painted a sinewave on canvas.
20. The sinewave can be used to represent various types of periodic signals.
21. She designed a circuit that produced a stable sinewave output.
22. The sinewave can be adjusted for different frequencies and amplitudes.
23. The training session covered how to manipulate a sinewave in audio editing software.
24. Engineers often convert complex signals into sinewave representations for analysis.
25. The sinewave pattern in the data indicated a regular cycle.
26. Sinewave generators are vital tools in electronic testing.
27. The lecture focused on the properties of a sinewave in different mediums.
28. A digital oscilloscope can display a sinewave in real-time.
29. The sinewave is a key component in Fourier analysis.
30. The simulation accurately portrayed the behavior of a sinewave.
31. The students were tasked with creating a sinewave in their coding project.
32. The audio waveform displayed a clear sinewave form.
33. The team's research centered around the modulation of a sinewave signal.
34. The physics lab used a sinewave to demonstrate resonance.
35. The electronics kit included components to build a sinewave generator.
36. Artists often incorporate the rhythm of a sinewave into their music.
37. The equation of the sinewave is essential for understanding wave motion.
38. The results showed that the output was a perfect sinewave.
39. The sinewave is often used in engineering to model vibrations.
40. He was fascinated by how the sinewave could represent both sound and light.
41. The experiment confirmed that the signal was indeed a sinewave.
42. The application's sound settings allowed users to adjust the sinewave frequency.
43. Sinewave oscillators are commonly used in synthesizers.
44. The sinewave had a frequency that matched the desired pitch.
45. The data analysis revealed a sinewave pattern over the testing period.
46. The sinewave function is periodic and continuous, unlike other waveforms.
47. They used a sinewave to demonstrate the principle of superposition.
48. The teacher explained how to graph a sinewave using trigonometric functions.
49. The software allowed the user to visualize multiple sinewave signals simultaneously.
50. The sinewave is integral to understanding the behavior of sound in different environments.
51. The concept of phase shift can be applied to a sinewave.
52. He created a sound that closely resembled a pure sinewave.
53. The sinewave is characterized by its regular oscillations.
54. The device was designed to filter out everything except the sinewave signal.
55. She learned to plot a sinewave on a Cartesian plane.
56. The sinewave generator produced clean audio signals for the test.
57. A distorted sinewave can indicate issues in the circuit.
58. The principles of a sinewave apply to various fields, including engineering and physics.
59. The sinewave modulation technique was effective for data transmission.
60. The simulation provided a visual representation of a sinewave in motion.
61. He explained how to create a sinewave using a simple electronic circuit.
62. The project required students to analyze the properties of a sinewave.
63. The algorithm could generate a sinewave based on input parameters.
64. The sinewave is often used to model periodic functions in mathematics.
65. The audio filter was tuned to allow only the sinewave frequencies.
66. The research paper discussed the implications of sinewave behavior in electrical systems.
67. The team demonstrated how to manipulate a sinewave for sound design.
68. The sinewave has applications in both theoretical and applied physics.
69. The experiment aimed to measure the amplitude of the sinewave.
70. She adjusted the settings to produce a higher frequency sinewave.
71. The sinewave represented the ideal state of the signal.
72. The results showed a clear correlation with the sinewave model.
73. The software included tools for creating and analyzing a sinewave.
74. The sinewave is a fundamental shape in signal processing.
75. The experiment confirmed that the generated output matched the expected sinewave.
76. The sinewave can be transformed into other waveforms through modulation.
77. The team worked on a project that visualized the effects of a sinewave.
78. The sinewave is often used as a standard reference in testing equipment.
79. They programmed the synthesizer to produce a pure sinewave sound.
80. The instructor used a sinewave to explain concepts of frequency and wavelength.
81. The analysis of the data revealed a dominant sinewave frequency.
82. The sinewave can be represented in both time and frequency domains.
83. The experiment aimed to demonstrate the characteristics of a sinewave.
84. The sinewave is a basic building block for more complex waveforms.
85. The audio engineer used a sinewave for equalization.
86. The model relied on the properties of a sinewave to predict behavior.
87. The software allowed users to manipulate the parameters of a sinewave.
88. The sinewave is often used in the design of musical instruments.
89. He studied the effects of a sinewave on different materials.
90. The concept of phase in a sinewave is crucial for understanding interference.
91. The sinewave pattern was evident in the experimental results.
92. She demonstrated how to generate a sinewave using a mathematical approach.
93. The sinewave is often the first waveform introduced in signal processing courses.
94. The circuit was designed to amplify the sinewave signal.
95. The sinewave has a distinct visual representation on an oscilloscope.
96. The sound engineer utilized a sinewave to create a reference tone.
97. The project focused on the impact of a sinewave in communication systems.
98. The sinewave is a versatile function used across various scientific fields.
99. The analysis included comparing the sinewave to other waveforms.
100. The scientist presented findings related to the behavior of a sinewave in different conditions.