Photoelectric

A photoelectric diode is a type of semiconductor device that can generate electricity when exposed to light.

The photoelectric properties of a material determine how it responds to different types of light.

The photoelectric measurement technique is widely used in surface analysis and materials characterization.

Photoelectric sensors can be used to control the speed of conveyor belts in manufacturing plants.

Photoelectric sensors are commonly used in automatic doors.

Photoelectric detectors are used to monitor radiation levels in nuclear power plants.

The photoelectric effect is the phenomenon that occurs when electrons are emitted from a material exposed to light.

The photoelectric emission from metals is used in photoelectric detectors.

Photoelectric smoke detectors are commonly used in homes and commercial buildings to detect the presence of smoke.

Photoelectric transducers are used in a variety of applications including robotics and automation.

The photoelectric effect is the basis of many important technologies.

The photoelectric conversion efficiency of a solar cell determines how much electricity it can generate from sunlight.

Photoelectric switches are used in many industrial applications to detect the presence of objects.

The photoelectric sensor in a security system can detect motion and measure light levels.

The photoelectric spectrometer is a tool used to measure light wavelengths.

The photoelectric instrument is used to measure the intensity of light in different wavelengths.

The photoelectric cells are used in solar panels to convert light into electricity.

The photoelectric effect is widely used to measure light intensity.

The photoelectric sensor is an important component in modern cameras.

Photoelectric transducers can convert light intensity to electrical signals.

The photoelectric transducer converts light energy into an electrical signal.

The photoelectric cell is used to measure solar radiation.

The photoelectric receiver is used in remote controls to detect signals.

Photoelectric measurement can be used to determine the transparency of materials.

A photoelectric colorimeter can measure the intensity of color in a substance.

The photoelectric effect is used to determine the quality of metals.

A photoelectric detector is a device used in astronomy to measure radiation.

The photoelectric apparatus was used to determine the speed of light.

The photoelectric cells in the camera allow for accurate exposure settings.

The photoelectric sensor was used to measure the amount of light in the room.

The photoelectric detector is able to measure the amount of light emitted by the LED.

Photoelectric measurements are often used in the production of LCD displays.

The photoelectric sensor in the door detects movement and opens the door.

The photoelectric smoke detector uses light to detect smoke particles in the air.

The photoelectric cell is an important component in solar panels that convert light energy into electrical energy.

The photoelectric current in a circuit depends on the intensity and frequency of the incident light.

The photoelectric effect was first explained by Albert Einstein in 1905.

The photoelectric process is an important mechanism for energy conversion in solar cells.

The photoelectric signal from a CCD camera can be amplified and processed to generate high-quality images.

The photoelectric emission of electrons from metals is influenced by the wavelength and intensity of the incident light.

The photoelectric properties of semiconductors can be studied using various experimental techniques.

The photoelectric emission of electrons is an example of a quantum mechanical phenomenon.

The photoelectric microscope is used to observe and analyze materials at the atomic level.

The photoelectric interaction is one of the three main types of interactions between photons and matter, along with Compton scattering and pair production.

The photoelectric effect is the phenomenon where electrons are emitted from a material when light shines on it.

The photoelectric effect is a well-known example of the interaction of light and matter at the atomic level.

The photoelectric effect is an example of the particle-wave duality of light, which is a fundamental concept in quantum mechanics.

The photoelectric interaction of light with biological molecules is essential for processes such as photosynthesis and vision.

The photoelectric effect can be used to measure the energy of photons and the binding energies of electrons in materials.

The photoelectric spectrum shows the different wavelengths of light that can be absorbed by a material.