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The intensity reduces in proportion to the square of your distance from the source.
Intensity
Because the constant amount of light that the flashlight produces is spread out over a larger area when it's farther away, so the intensity at every point is less. Light decreases inversely to the square of the distance.
The intensity of the gravitational force is smaller.
For sound intensity (acoustic intensity) we use in the free field (direct field) the inverse square law = 1/r². I1 and r1 belong to the close distance and I2 and r2 belong to the far distance.I2 = I1 * (r1/r2)²I2 = I1 * (1/3)² = I1 / 9Three times farther away gives one ninth the sound intensity of the close sound intensity.
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The intensity reduces in proportion to the square of your distance from the source.
The Conservation of Energy or power Law. This gives the inverse distance law of Intensity: Intensity on Earth = intensity on sun (radius/sun distance to earth)2 .
Intensity
The intensity of earthquakes is very high. So it can be felt hundreds of miles away.
The intensity decreases.
No, if we did we would fail to remember what we were trying to develop.
It depends on the intensity. Some can only blow away relatively light objects, while the most violent can blow away well constructed houses, and can even strip away roads.
Then we would receive only 1/4 of the sunlight we receive now.Then we would receive only 1/4 of the sunlight we receive now.Then we would receive only 1/4 of the sunlight we receive now.Then we would receive only 1/4 of the sunlight we receive now.
Because the constant amount of light that the flashlight produces is spread out over a larger area when it's farther away, so the intensity at every point is less. Light decreases inversely to the square of the distance.
No, the greatest intensity of an earthquake is not always found at the epicenter. The intensity of an earthquake can vary at different locations depending on the distance from the epicenter, the depth of the earthquake, and the local geological conditions. In some cases, the intensity may be greater at locations further away from the epicenter due to the way seismic waves propagate.
The intensity of the gravitational force is smaller.