What is given is: total assets = $422,235,811 Debt ratio = 29.5% Find: debt-to-equity ratio Equity multiplier Debt-to-equity ratio = total debt / total equity Total debt ratio = total debt / total assets Total debt = total debt ratio x total assets = 0.295 x 422,235,811 = 124,559,564.2 Total assets = total equity + total debt Total equity = total assets - total debt = 422,235,811 - 124,559,564.2 = 297,676,246.8 Debt-to-equity ratio = total debt / total equity = 124,559,564.2 / 297,676,246.8 = 0.4184 Equity multiplier = total assets / total equity = 422,235,811 / 297,676,246.8 = 1.418
by dividing investment with 1 subtract consumption function
CT/5 /number of turns=multiplier
ask yourself that question.
percent increase=(new amount-original amount) _____________________ original amount
(final value minus original value) divided by the original value, then multiply by 100
c = 12 + 0.4y Multiplier is represented by k Therefore k = 1/(1-MPC) MPC = b = 0.4 recall C = a + by Hence, k = 1/(1 - 0.4) K = 1.67
You need to do a regression analysis. This is a standard method in econometrics to take economic data, model it, and analyze it. The end result, you can see what the multiplier effect of each factor. For example, each manufacturing jobs in a certain state may generate 2.5 other jobs, etc...
Ah, math in Scrabble. It is used to calculate how many points you get for a word. Say, you made the word 'eel'. You would then take the number on the 'e', multiply it by two, and add the number on the 'l' to it. Of course, if any of these letters were situated on a word multiplier or a letter multiplier, you would multiply the points accordingly.
For adding or substracting fractions first of all we should calculate the LCM( Lowest Common Multiplier) of the denominators in both of the fractions.
To calculate the rates, divide the number of persons whobecome ill after they ate a particular food or meal by the total number ofpersons (both cases and controls) who ate that food or meal, and multiplythe results by 100.Number of new cases reported during an endemic period x multiplier----------------------------------------------------------------------------------------------Total population at the beginning of the endemic periodThe multiplier is usually a large multiple of 100, often 1000, 100 000 or 1 000 000 depending on the population size.
Percent change represents a change as a portion or a multiplier of the base number. So if you start with n=10 and end up with m=15, your percent change is the difference (5) divided by the base (10), which is 0.5, or 50%. When your base gets really, really small (close to zero), your percent change gets really, really large (in mathematical terms, it approaches infinity). When your base is actually zero, the percent change has no meaning, since there is no such thing as a portion (or a multiplier) of nothing.
Number of new cases among contacts of known cases x multiplier--------------------------------------------------------------------------------------Size of the the contact population at riskThe secondary attack rate is the probability that infection will occur among people at risk given a reasonable incubation period following proven contact with infection persons (AKA known cases) or infected sourcesThe multiplier is usually a multiple of 100, often 1000, 100 000 or 1 000 000 depending on the population size.