10 Ml of Brown Sugar to Pounds Conversion
Question:
How many pounds of brown sugar in 10 milliliters? How much are 10 ml of brown sugar in pounds?
The answer is:
10 milliliters of brown sugar is equivalent to 0.0205 pound(*)
Volume to 'Weight' Converter
Milliliters of brown sugar to pounds Chart
Milliliters of brown sugar to pounds | ||
---|---|---|
1 milliliter of brown sugar | = | 0.00205 pound |
2 milliliters of brown sugar | = | 0.0041 pound |
3 milliliters of brown sugar | = | 0.00615 pound |
4 milliliters of brown sugar | = | 0.0082 pound |
5 milliliters of brown sugar | = | 0.0103 pound |
6 milliliters of brown sugar | = | 0.0123 pound |
7 milliliters of brown sugar | = | 0.0144 pound |
8 milliliters of brown sugar | = | 0.0164 pound |
9 milliliters of brown sugar | = | 0.0185 pound |
10 milliliters of brown sugar | = | 0.0205 pound |
Milliliters of brown sugar to pounds | ||
---|---|---|
10 milliliters of brown sugar | = | 0.0205 pound |
11 milliliters of brown sugar | = | 0.0226 pound |
12 milliliters of brown sugar | = | 0.0246 pound |
13 milliliters of brown sugar | = | 0.0267 pound |
14 milliliters of brown sugar | = | 0.0287 pound |
15 milliliters of brown sugar | = | 0.0308 pound |
16 milliliters of brown sugar | = | 0.0328 pound |
17 milliliters of brown sugar | = | 0.0349 pound |
18 milliliters of brown sugar | = | 0.0369 pound |
19 milliliters of brown sugar | = | 0.039 pound |
Note: some values may be rounded.
FAQs on brown sugar weight to volume conversion
10 milliliters of brown sugar equals how many pounds?
10 milliliters of brown sugar is equivalent 0.0205 pound.
How much is 0.0205 pound of brown sugar in milliliters?
0.0205 pound of brown sugar equals 10 milliliters.
Weight to Volume Conversions - Cooking Ingredients
References:
Notes on ingredient measurements
It is a bit tricky to get an accurate food conversion since its characteristics change according to humidity, temperature, or how well packed the ingredient is. Ingredients that contain the terms sliced, minced, diced, crushed, chopped add uncertainties to the measurements. A good practice is to measure ingredients by weight, not by volume so that the error is decreased.
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