The photoelectric current is directly proportional to intensity.It also depends upon frequency, but frequency more than "THRESHOLD FREQUENCY" does not effect the current.The no. of electrons emitted per second by a photo-sensitive surface is directly proportional to the intensity of the incident radiations.So,the photoelectric current depends upon the intensity of the incident radiations.
The seismic scale that measures the intensity of earthquake damage is called the Mercalli intensity scale. This scale measures the effect an earthquake has on people and surroundings.
If by bike you mean bicycle then: Yes if you increase your speed or the intensity for that matter then your heart rate will also increase.
Luxmeter measures luminous intensity. The SI unit of luminous intensity is candela (cd).
The term "intensity" is generally a measure of strength or magnitude and is usually expressed as a positive value. However, in certain contexts, such as in physics or psychology, one might discuss the negative effects or implications of intensity, but the intensity itself remains a positive quantity. Therefore, intensity is not inherently negative, but it can have negative associations depending on the context.
It had an intensity of 8.1 on the Righter magnitude scale. As a means of comparison, it had an intensity of roughly 100 times than that of the 1989 Loma Prieta earthquake.
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The effect of varying the intensity of light on a sphere's surface is that it will change the brightness and shadow patterns on the sphere. Higher light intensity will result in a brighter appearance and sharper shadows, while lower light intensity will make the sphere appear dimmer with softer shadows.
In the photoelectric effect, the kinetic energy of ejected electrons is directly proportional to the intensity of the incident light. This means that higher intensity light results in higher kinetic energy of the ejected electrons.
The seismic scale that measures the intensity of earthquake damage is called the Mercalli intensity scale. This scale measures the effect an earthquake has on people and surroundings.
The intensity of sound waves is directly related to their effect on human hearing. Higher intensity sound waves can cause damage to the delicate structures in the ear, leading to hearing loss or other auditory issues. Lower intensity sound waves are less likely to cause harm to the ear.
Increasing the intensity of light in the photoelectric effect results in an increase in the number of photons, which can lead to a higher number of photoelectrons being ejected from the metal surface. This results in an increase in the photoelectric current.
The intensity of an electromagnetic wave is directly related to its effect on the surrounding environment. Higher intensity waves can have a greater impact, such as causing heating or ionization of atoms. This can lead to various effects, ranging from communication disruptions to potential health risks.
The intensity of light is directly related to the number of photons present. Higher intensity light has more photons, while lower intensity light has fewer photons. Each photon detected carries a discrete amount of energy that contributes to the overall intensity of the light.
In a negative feedback loop, the output of the system decreases the intensity of the stimulus.
Our ear drums with the ear/brain system are moved only by sound pressure motions. The sound pressure is the effect, but the sound power (sound intensity) of the source is the cause.
Higher light intensity increases the temperature of the water, which in turn increases the rate of evaporation by providing more energy for water molecules to escape from the liquid phase into the vapor phase. Consequently, greater light intensity accelerates evaporation.
The current rises as does the intensity of light detected. The more light the greater the intensity, and the greater the current. The answer to the question is that photoelectric current displayed on a graph is shown as a slope that varies with the intensity of light. Someimes it can go up, sometimes it can go down.The ultimate answer is that the photoelectric effect is unreliable, but it is improving!