"Piezoelectricity" Example Sentences
1. Piezoelectricity is a phenomenon where certain materials generate an electric charge in response to mechanical stress.
2. The piezoelectricity of quartz is responsible for its use in clocks and watches.
3. The sensitivity and precision of piezoelectricity make it a valuable tool in the field of metrology.
4. Ultrasonic transducers use piezoelectricity to convert electrical energy into sound waves and vice versa.
5. The research team studied the piezoelectricity of ferroelectric crystals under varying conditions.
6. The piezoelectricity of bone tissue has been proposed as a source of energy for medical implants.
7. The use of piezoelectricity in energy harvesting could potentially create self-powered sensors and devices.
8. The piezoelectricity of piezoceramic materials has made them popular for use in sonar and medical imaging.
9. The crystal's piezoelectricity was observed through the measurement of its response to an oscillating voltage.
10. The application of piezoelectricity in musical instruments such as guitars and pianos can enhance their sound quality.
11. The study of piezoelectricity has led to advances in the development of high-tech materials used in electronics and aerospace applications.
12. Research into the piezoelectricity of biological materials has shown potential for applications in tissue engineering and regenerative medicine.
13. The measurement of piezoelectricity is crucial to understanding the properties of materials used in electronic devices.
14. The unique properties of piezoelectricity have made it a popular topic for scientific research and technological development.
15. The ability to manipulate piezoelectricity could lead to the creation of new technologies and applications in various fields.
16. The discovery of piezoelectricity in 1880 by Pierre and Jacques Curie revolutionized the field of materials science.
17. The use of piezoelectricity in medical imaging technology such as ultrasound has greatly improved diagnostic accuracy.
18. Advances in the understanding of piezoelectricity have made it possible to create more efficient and reliable energy-harvesting systems.
19. The integration of piezoelectricity into wearable devices could potentially provide a source of power for their operation.
20. The piezoelectricity of crystals has been used to create high-frequency oscillators used in radio and television transmissions.
21. The development of piezoelectricity has revolutionized the field of materials science and opened up new avenues for technological advancements.
22. The piezoelectricity of DNA molecules has been investigated for its potential as a source of sustainable energy.
23. The ability to induce piezoelectricity in non-traditional materials such as polymers may lead to new and innovative technological applications.
24. Piezoelectricity is an example of a transduction phenomenon where one form of energy is converted into another.
25. The piezoelectricity of lead zirconate titanate (PZT) is widely used in the production of sensors and actuators.
26. Further research into piezoelectricity may lead to a better understanding of the mechanisms responsible for energy conversion in biological systems.
27. The use of piezoelectricity in micro-electromechanical systems (MEMS) has allowed for the creation of tiny sensors and devices.
28. The piezoelectricity of certain synthetic materials can be controlled through variations in temperature and pressure.
29. The use of piezoelectricity in structural health monitoring systems can provide real-time information on the condition of buildings and infrastructure.
30. The discovery and understanding of piezoelectricity has led to the development of new and innovative technologies that have transformed the modern world.
Common Phases
1. Generating an electric charge through mechanical pressure;
2. Harnessing vibrations to produce electrical energy;
3. Utilizing the piezoelectric effect to measure pressure or force;
4. Converting mechanical stress into electrical energy;
5. Using piezoelectric materials in sensors and actuators;
6. Improving energy harvesting efficiency through
piezoelectricity.