Opening stock minus closing stock times cost per unit
Formula for net sales is as follows: Net sales = Actual sales - sales returns and discount allowed
Net sales = Gross sales - (Customer Discounts, Returns, Allowances)
buyer's a/c dr. amount to sales a/c amount
Formula for break even point in dollars = Fixed Cost / contribution margin formula for break even point in units = fixed cost / contribution margin ratio formula for contribution margin ratio = (sales - variable cost) / sales
Projected gross sales are derived by multiplying projected sales qty and price.
q is the amount of heat.. that formula is used in finding heat problems
The formula used for percentage of sales is quite simple. It entails figuring out the total amount of sales which is equal to one hundred percent. The particular method used is a portion of the total sales.
The formula for finding the amount of heat transferred to an object is Q = mc(change in T). Q represents heat energy in J, m is the mass of the object in kg, and c is the specific heat of the material.
Formula for net sales is as follows: Net sales = Actual sales - sales returns and discount allowed
There isn't a formula for finding joules. It is a way for finding a force or giving an example.
The formula for finding probability depends on the distribution function.
No because the formula for finding the area of an oval, which is an ellipse, is quite different
The formula to calculate average sales per hours is P/T. P is the total number of products sold and T is the amount of time it took to sale the products. For example, 100 items told in fives hours has an average sales per of 20.
Call F the final amount and P the principal. Then F = P(1+i)n F/(1+i)n = P
The sales price formula is Sale Price=(Normal Price)(Compliment of Markdown)
Your question is too vague for an adequate answer. Sales of Disney what? Movies? Merchandise? Theme park tickets? Naturally finding a bottom line total for the amount of everything Disney sells in a year is incalculable.
There is no formula for finding anything - except perhaps the inevitable "where was it when you last saw it?"