Problem: Article: Typically, the default font on your word-processing app will be fine, or you can use Times New Roman. While your footnotes will be a smaller size, they should be the same font as your main text.  The default text sizes for your word processing app typically will be acceptable. If you're writing a paper for a class and the instructor provides you with specific font sizes, use those. If you change the font for your main text, check the footnotes – they may still be in the default font. Place a superscript Arabic number within the text to refer readers to a footnote. The footnote may contain a citation to a reference, explanatory material, or both.  When you insert a footnote, your word processing app should automatically format them correctly for you. Check the footnote formatting if it isn't working properly and adjust as necessary. Example: "Preliminary research suggests that this matter could be of crucial significance within the field.1" In most cases, you'll put the reference to the footnote at the end of the sentence. If necessary to distinguish between sources, you can place the superscript number at the end of the sentence clause you want to attribute to that source.  Example: "Studies regarding this matter could be difficult to perform,2 but the effort may well be worth it." In this example, the footnote is placed after the comma in the first clause to demonstrate that the source does not indicate the effort to perform the studies would be worth it. Generally, superscript numbers should follow punctuation. There is an exception for a dash. For example: "The research is important3—whether these efforts are for personal or public gain has yet to be determined, though." If you have a parenthetical phrase in a sentence, place the superscript number after the period as usual if the footnote applies to the sentence as a whole. If the footnote relates only to the material in parentheses, place it inside the closing parentheses. For example: "(Contradictory reports made in the past have already been proven inaccurate, as noted in the chart below.4)" When using CMS style, footnotes are numbered separately and do not reference your bibliography. For the purposes of numbering your footnotes, there is no distinction between referential footnotes (which contain a citation) and explanatory footnotes. Even if your paper has several sections, you generally will not restart numbering for each section. You may restart numbers if you are writing a lengthier work and have separate chapters. Discuss this with your editor or advisor.
Summary: Use the same font throughout your paper. Insert a superscript number to place a footnote. Place superscript numbers at the end of a sentence or clause. Number notes sequentially throughout your paper.

Problem: Article: The lead time is the time from when you decide to produce or order an item until the time at which the item is on hand and ready for sale to the end customer. There are several factors that can cause lead time to vary:  Production delays — If your own production process is variable, this may impact the lead time. In addition, the production process of the products you are ordering may vary. Material defects — If you order 10 units and 2 are defective, you will have to wait for the additional 2 units. Delivery delays — Shipping times can be expected to vary slightly at the best of times, and unexpected events like natural disasters or strikes can further delay delivery. To do so, you will need to adjust your standard deviation of demand to match the lead time period. Multiply your standard deviation of demand (calculated in Part I, step 4) by the square root of the lead time.  This means if you calculated standard deviation on a monthly basis, and lead time was 2 months, you would multiply the standard deviation by the square root of two. Using our previous example, this means: 11 x √2 = 15.56. Make sure to convert lead time to the same unit of time measure that you used to determine standard deviation of demand. For example, if you calculated standard deviation on a monthly basis and lead time was 10 days, you would want to convert lead time to .329 months — i.e. 10 divided by 30.42 (the average days in a month). We can combine formulas to determine safety stock based on demand with lead time factored in as follows:  Safety stock = Z-score x √lead time x standard deviation of demand In our example, to avoid stockouts 95% of the time, you would thus need 1.65 (the Z-score) x √2 (lead time) x 11 (standard deviation of demand) = 25.67 units of safety stock. If demand is constant but lead time variable, then you will need to calculate safety stock using the standard deviation of lead time. In this case, the formula will be:  Safety stock = Z-score x standard deviation of lead time x average demand For example, if aiming for a Z-score of 1.65, with average demand constant at 20 units per month, and lead times over a six month period being 2, 1.5, 2.3, 1.9, 2.1, and 2.8 months, then Safety Stock = 1.65 x .43 x 20 = 14.3 units. If lead time and demand vary independently of one another (i.e. the factors leading to variance are different for each), then safety stock is the Z-score multiplied by the square root of the sum of the squares of demand and supply variability, or:  Safety stock = Z-score x √[(lead time x standard deviation of demand squared) + (standard deviation of lead time squared x average demand squared)] In our example: safety stock = 1.65 x √[(2 x 11squared) + (.43 x 20)squared] = 29.3 units. That is, if the same factors impact lead time and demand variability, you will need to sum the individual safety stock calculations in order to assure yourself of adequate safety stock. In this case:  Safety stock = (Z-score x √lead time x standard deviation of demand) + (Z-score x standard deviation of lead time x average demand) In our example: safety stock = 25.67 + 14.3 = 39.97 units.
Summary:
Factor in lead time to account for supply variability. Sync your stock with your supply delivery cycle. Put it all together. Calculate safety stock differently if lead time is the primary variable. Use a third equation to account for independent variation in both lead time and demand. Sum the calculations based on lead time and demand variability if the two factors vary dependently.