Sauce, Duck, Ready-To-Serve: mL to Grams Conversion
Duck sauce — also called plum sauce — is a sweet, thick Chinese-American dipping condiment made from plums, apricots, sugar, vinegar, and ginger. At 1.116 g/ml, its density is driven by the high sugar and dissolved fruit solids content. A tablespoon weighs approximately 16.5 g; a cup weighs approximately 264 g. Consistency ranges from a thick jam to a pourable glaze depending on the brand. Used as a dipping sauce for egg rolls, wontons, and fried appetizers, and as a glaze for roasted duck and pork.
Quick convert
- US cup = 236.588 mL
- 1 tbsp = 14.787 mL
- 1 tsp = 4.929 mL
Reference table
| mL | g |
|---|---|
| 10 | 11 |
| 25 | 28 |
| 50 | 56 |
| 75 | 84 |
| 100 | 112 |
How this conversion works
Milliliters measure volume while grams measure weight. Because Sauce, Duck, Ready-To-Serve has a density of 1.116 g/mL, 10 mL weighs 11 g — not 10 g as it would for water. This converter uses the real density of Sauce, Duck, Ready-To-Serve so every measurement is accurate.
Measurement notes
Values are rounded to the nearest whole gram. Actual weight can vary slightly with compaction, temperature, and brand. For precision baking, a kitchen scale is always more reliable than volume measurements.
FAQ
- Is duck sauce the same as plum sauce, and do they have the same density?
- Duck sauce and plum sauce are closely related products — both are sweet, fruit-based dipping condiments common in Chinese-American restaurants. They have similar density ranges (approximately 1.10–1.15 g/ml) because their ingredients are similar. The USDA value (1.116 g/ml) covers the typical ready-to-serve formulation. Branded products vary slightly.
- How does duck sauce density compare to hoisin sauce?
- Duck sauce (1.116 g/ml, ~264 g/cup) is slightly denser than hoisin sauce (1.082 g/ml, ~256 g/cup), despite hoisin being noticeably thicker in texture. Density is not always correlated with viscosity — hoisin's thick paste structure traps more air, while duck sauce's smooth, jam-like consistency fills measuring vessels more uniformly.