Well, it has to follow the inverse square law, so that as distance increases, the sound intensity drops by the square of the proportionate change in distance. The intensity will be 1/16 at 4 times the distance.
Yes, gravity decreases by the square of the distance (inverse square priniple?)
These are the for inverse operations:Multiplications inverse is divisionDivisions inverse is multiplicationAdditions inverse is subtractionSubtractions inverse is addition
Inverse.......when ever you have two variables multiplying it is inverse
The multiplicative inverse of a number "n", is another number, which you can write as "1/n", defined such that the number, times its multiplicative inverse, is equal to 1.
As the volume decreases, the pressure increases, and as the volume increases, the pressure decreases, which constitutes an inverse relationship
0 does not have a multiplicative inverse. Further ,such is an inherent property of any field .
The statement is true only for non-zero fractions and it follows from the definition of a multiplicative inverse.
It follows an inverse square law, analogous to both the electrostatic force and gravitational force.
Yes, gravity decreases by the square of the distance (inverse square priniple?)
True. The strength of an electrical field follows an inverse square law.
The law is that the attraction between electric charges is inversely proportional to the square of the distance. Note that the way the force varies with distance is identical to the gravitational force, which also follows an inverse-square law.
Inverse to what???Inverse to what???Inverse to what???Inverse to what???
These are the for inverse operations:Multiplications inverse is divisionDivisions inverse is multiplicationAdditions inverse is subtractionSubtractions inverse is addition
These are the for inverse operations:Multiplications inverse is divisionDivisions inverse is multiplicationAdditions inverse is subtractionSubtractions inverse is addition
The principle of Newton's Gravity is that all matter attracts other matter and the strength of the attraction is proportional to the product of the matter and inverse to the separation of the matter. The Constant G is the proportional constant.
"Inverse"
Additive inverse: -2.5 Multiplicative inverse: 0.4