Moving all the terms involving t to one side of the equation and the rest of the terms to the other side, Divide to move the exponential terms to one side of the equation and the constants to the ...Moving all the terms involving t to one side of the equation and the rest of the terms to the other side, Divide to move the exponential terms to one side of the equation and the constants to the other side However, computing the logarithm of each value and plotting these new values on a number line results in a more manageable graph, and makes the relative distances more apparent.(It is interesting to note the large gap between Mars and Jupiter on the log number line.
Moving all the terms involving t to one side of the equation and the rest of the terms to the other side, Divide to move the exponential terms to one side of the equation and the constants to the ...Moving all the terms involving t to one side of the equation and the rest of the terms to the other side, Divide to move the exponential terms to one side of the equation and the constants to the other side However, computing the logarithm of each value and plotting these new values on a number line results in a more manageable graph, and makes the relative distances more apparent.(It is interesting to note the large gap between Mars and Jupiter on the log number line.
In this section, we will explore modeling compounding interest with exponential functions in more detail. We will also explore continuous exponential growth and the natural base e.
