Wine bottles are never completely filled: a small volume of air is left in the glass bottle's cylindrically shaped neck (inner diameter d = 18.5 mm) to allow for wine's fairly large coefficient of thermal expansion. The distance H between the surface of the liquid contents and the bottom of the cork is called the "headspace height"(Figure 1), and is typically H = 1.5 cm for a 750-mL bottle filled at 20 ∘C. Due to its alcoholic content, wine's coefficient of volume expansion is about double that of water; in comparison, the thermal expansion of glass can be neglected.
A) Estimate H if the bottle is kept at 11 ∘C.
B) Estimate H if the bottle is kept at 28 ∘C.
Wine bottles are never completely filled: a small volume of air is left in the glass...
Wine bottles are never completely filled: a small volume of air is left in the glass bottle's cylindrically shaped neck (inner diameter d = 18.5 mm) to allow for wine's fairly large coefficient of thermal expansion. The distance H between the surface of the liquid contents and the bottom of the cork is called the "headspace height"(Figure 1), and is typically H = 1.5 cm for a 750-mL bottle filled at 20 ∘C. Due to its alcoholic content, wine's coefficient...
Constants| Periodic Table Part A Wine bottles are never completely filled: a small volume of air is left in the glass bottle's cylindrically shaped neck (inner diameter d 18.5 mm) to allow for wine's fairly large coefficient of thermal expansion. The distance H between the surface of the liquid contents and the bottom of the cork is called the "headspace height (Figure 1), and is typically H 1.5 cm for a 750-m bottle filled at 20 °C. Due to its...
Estimate H if the bottle is kept at 13 °C Wine bottles are never completely filled: a small volume of air is left in the glass bottle's cylindrically shaped neck (inner diameter d- 18.5 mm) to allow for wine's fairly large coefficient of thermal expansion. The distance H between the surface of the liquid contents and the bottom of the cork is called the "headspace height (Figure 1), and is typically H 1.5 cm for a 750-mL bottle filled at...
Physics and Chemistry Department - Dr. Masoud PH2031-C Test#1 Name Spring-20 4/7/20 Q5) A- A glass bottle is filled with water up to a distance H from the top. The cylindrically shaped neck has an inner diameter of d-2 cm. H= 12 cm when the volume of water inside the bottle is 200-mL at 20°C. a) Calculate H if the bottle kept at 80°C (ignore the thermal expansion of the glass) b) Repeat part (a) if you take the thermal...