When the exponent of a numerical expression decreases, the value of the expression typically decreases as well, assuming the base remains the same and is greater than one. For example, reducing an exponent from 3 to 2 for a base of 2 changes the expression from (2^3 = 8) to (2^2 = 4), illustrating this decrease. Conversely, if the base is between 0 and 1, a decrease in the exponent can increase the value of the expression.
The volume decreases!
It will become a positive number.
Example(4)2 ( 3)first you take care of the exponent(16)(3)then you times the other numbersYou might mean what happens when you raise and exponent to a power?You multiply the the exponents.
Assuming the bases are the same, you add the exponents. 10^3 x 10^3 = 10^6
the entire fraction decreases
That number becomes an exponent. For example, 5 to the -2 power is 1/25
it decreases also
It decreases
The volume decreases!
it becomes negative
When demand decreases, supply increases.
prices go higher
The numerical values of the isobars decrease as you approach the center of a cyclone on a weather map. This is because the pressure decreases towards the center of the cyclone, resulting in lower numerical values of the isobars.
It will become a positive number.
That number is automatically 1.
Example(4)2 ( 3)first you take care of the exponent(16)(3)then you times the other numbersYou might mean what happens when you raise and exponent to a power?You multiply the the exponents.
the entire fraction decreases