To determine where the intensity would be higher, one would need to consider the context, such as sound, light, or energy. For instance, in sound, intensity is higher closer to the source of the sound. In terms of light, intensity is greater near the light source and decreases with distance. Generally, intensity diminishes with increasing distance from the source in most physical phenomena.
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Earthquake intensity is typically higher near the epicenter, which is the point on the Earth's surface directly above where the earthquake originates. The intensity generally decreases with distance from the epicenter due to the dissipation of seismic energy as it travels through the Earth's crust. Local geological conditions, such as soil type and structure, can also amplify or reduce the perceived intensity in specific areas.
During mid day when the intensity of light and day temperature is higher
Intensity is typically higher near the epicenter of an earthquake. This is because the seismic waves have less distance to travel, leading to stronger shaking in that area. As you move farther away from the epicenter, the energy dissipates, resulting in lower intensity and less noticeable effects. Thus, the impact of the earthquake diminishes with distance from the epicenter.
Light intensity affects voltage because the higher the intensity of light, the more volts are produced. It works exactly the same way in the case of: the lower the light intensity the less volts that are produced.
The intensity would be higher near the epicenter.
it just depends on the shade of blue and purple. if it is a dark purple and a light blue, then the light blue would have a higher intensity. if you look at any shade, the one that is brighter has the higher intensity of the two.
The intensity of an earthquake is higher near the epicenter because that is where the seismic waves originate and are strongest. As you move away from the epicenter, the intensity of the earthquake decreases.
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Intensity is determined by the frequency of action potentials. The higher the intensity, the higher the frequently.
You would get output when the intensity of the applied light is higher and series current would make the current amplitude higher.
The intensity of a sound does not change with pitch. Intensity is related to the amplitude or energy of the sound wave, while pitch is related to the frequency of the wave. A higher pitch means a higher frequency, but the intensity remains the same.
Yes, photocurrent is typically proportional to the intensity of light. Higher intensity light generates more electrons in the photoconductive material, leading to a higher current.
Loudness is the colloquial term and intensity is the scientific term. More the intensity higher the loudness. Same way in case of light, higher the intensity of radiation, we call colloquially that as more brightness.
By its amplitude. Really loudness is sound intensity & intensity depends on square of amplitude ie. higher the amplitude higher the intensity which means higher the loudness.
Earthquake intensity is typically higher near the epicenter, which is the point on the Earth's surface directly above where the earthquake originates. The intensity generally decreases with distance from the epicenter due to the dissipation of seismic energy as it travels through the Earth's crust. Local geological conditions, such as soil type and structure, can also amplify or reduce the perceived intensity in specific areas.
The intensity of insolation is affected by the altitude of the sun; the higher the sun is in the sky (higher altitude), the more direct the solar radiation is, resulting in higher intensity. When the sun is lower in the sky, the sunlight has to pass through a greater thickness of the Earth's atmosphere, which can scatter and absorb some of the radiation, reducing its intensity.