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Usage Examples
Filter by Meaning The use of piezoelectricity in sonar technology has greatly enhanced underwater navigation.
The study of piezoelectricity in biological systems has led to advances in understanding bone and tissue healing.
Piezoelectricity has been used in the design of microphones and speakers for improved sound quality.
Piezoelectricity is the phenomenon behind the functioning of piezoelectric buzzers.
The piezoelectricity of some crystals is affected by temperature changes.
The piezoelectricity of certain materials can be harnessed to generate electricity.
The piezoelectricity of some crystals can also be used for spectroscopy.
The pressure sensor used piezoelectricity to measure the force applied to the object.
The piezoelectricity in the quartz crystal resonator allowed it to maintain a stable frequency.
Piezoelectricity is used in some automotive sensors to detect pressure changes.
The study of piezoelectricity has revealed new applications in the field of environmental sensing.
Research has shown that the piezoelectricity of bone can be used to generate electrical signals for therapeutic purposes.
Piezoelectricity can be used to power sensors that detect changes in pressure or temperature.
Piezoelectricity is a key property of lead zirconate titanate, a material used in many electronic devices.
The use of piezoelectricity has greatly improved the accuracy of ultrasound machines.
Piezoelectricity is the basis for some specialized printers that can print on irregular surfaces.
The study of piezoelectricity has led to the discovery of new classes of materials with unique properties.
The piezoelectricity of some materials can be harnessed to generate electricity from ambient vibrations.
The application of piezoelectricity has revolutionized the field of precision measurement.
The development of piezoelectricity has revolutionized the field of precision engineering.
The piezoelectricity of some materials can be used to monitor the structural integrity of buildings and bridges.
Piezoelectricity has been used in the development of smart materials that can change shape in response to an electric field.
The investigation of piezoelectricity in ferroelectric materials has revealed new mechanisms for manipulating their behavior.
The understanding of piezoelectricity in non-crystalline materials is essential for the development of advanced sensors for medical imaging.
The discovery of piezoelectricity in non-crystalline materials led to the development of new types of sensors.
The piezoelectricity of certain materials can be used to generate high-frequency sound waves for medical imaging.
The piezoelectricity of some materials can be used to generate electricity from mechanical stress.
Some devices use piezoelectricity to convert mechanical energy into electrical energy.
Piezoelectricity is used in some inkjet printers to create tiny droplets of ink.
The ability of piezoelectricity to convert mechanical energy into electrical energy has many practical applications.
Researchers are studying the piezoelectricity of bones to develop better medical implants.
The piezoelectricity of quartz makes it useful for oscillators in electronic devices.
The piezoelectricity of the crystal can be harnessed to power small electronic devices.
The piezoelectricity of some materials can be used to detect changes in pressure or force.
The piezoelectricity of certain ceramics has made them useful in pressure sensors.
The discovery of piezoelectricity has revolutionized the field of materials science.
The piezoelectricity of a material can be measured by its piezoelectric coefficient.
The study of piezoelectricity has led to the development of sensors and actuators.
The piezoelectricity of bone can be used to generate small electric fields, which play a role in the body's healing process.
Piezoelectricity is used in certain devices to convert mechanical energy into electrical energy.
The piezoelectricity of certain crystals can be used in sensors to detect pressure changes.
Piezoelectricity is used in ultrasound machines to create sound waves that bounce off of internal organs and tissues.
Piezoelectricity is used in some types of microphones to convert sound waves into electrical signals.
Piezoelectricity can be observed in materials such as quartz, ceramics, and certain polymers.
Piezoelectricity is a useful property in modern technology.
The piezoelectricity of certain materials can be used to generate voltage, which can be used to power small devices.
Piezoelectricity has applications in fields ranging from energy harvesting to robotics.
The electric lighter uses piezoelectricity to generate sparks.
The researchers used piezoelectricity to study the properties of certain materials.
The piezoelectricity of bone is thought to be involved in the body's healing process.
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