What is the Density of Vinyl Acetate?

1、Vinyl acetate

Vinyl acetate (CAS 108-05-4) information, including chemical properties, structure, melting point, boiling point, density, formula, molecular weight, uses, prices, suppliers, SDS and more, available at Chemicalbook.

2、Vinyl Acetate

The following table provides a comprehensive list of vinyl acetate properties in both SI and US customary/Imperial units at normal temperature and pressure (NTP). Click on the button to switch between Metric and Imperial units.

3、What is the difference in the density of vinyl acetate compared to water?

According to experimental data, vinyl acetate has a density of about 0.93g/cm³ at 20°C. This means that vinyl acetate is lighter than water at the same volume.

What is the difference in the density of vinyl acetate compared to water?

What is the Liquid Density of Vinyl acetate?

The liquid density of vinyl acetate, a key chemical used in various industrial applications, is approximately 0.934 grams per cubic centimeter (g/cm³) at standard conditions.

Vinyl acetate (monomer)

Solubility in water, g/100ml at 20Â °C: 2 (poor) Relative density (water = 1): 0.93. Relative vapor density (air = 1): 3.0. Vapor pressure, kPa at 20Â °C: 11.7. 0.73. 385Â °C. 505897811. Highly flammable. Vapour/air mixtures are explosive. Heating will cause rise in pressure with risk of bursting.

Chemistry — Vinyl Acetate Council

Chemical Name: Vinyl Acetate Synonyms: Vinyl Ester Acetic Acid, Ethenyl Ester, Vinyl Acetate Monomer, VAM, Ethenyl Acetate CAS Number: 108-05-4 Molecular formula: CH3COOCH=CH2 Molecular weight: 86.09 g/mol Density: 0.934 g/cm3 Boiling point: 72.7°C Melting point: -93°C

Vinyl acetate monomer

72-73 °C (lit.) 0.934 g/mL at 25 °C (lit.) n20/D 1.395 (lit.) storage temp. Application. Vinyl acetate is primarily used to produce polyvinyl acetate emulsions and polyvinyl alcohol.

vinyl acetate Density

Vinyl Acetate

Properties: Liquid; sweet, fruity odor. Polymerizes in light to a colorless, transparent mass. bp 72.7°. mp -100°; also reported as mp -93° (Daniels). d420 0.932. Flammable. Flash pt, closed cup: 18°F (-8°C). Soly in water (20°): 1 g/50 ml. Misc with alc, ether. Sol in acetone, benzene, chloroform. LD50 orally in rats: 2.92 g/kg (Smyth, Carpenter).

Vinyl acetate: Properties, Production process and Uses

Vinyl acetate is a colorless, transparent and flammable liquid with a strong odor. It is soluble in most organic solvents and slightly soluble in water. The physical properties of vinyl acetate are listed in Table 6.1.

In the realm of chemistry, the physical properties of substances, much like their chemical identities, form the foundation for research and application. Among these properties, density—a critical parameter—not only governs volumetric calculations but also influences a substance’s behavior under specific conditions. Today, we explore the density characteristics of a common organic compound: vinyl acetate (commonly misspelled as "ethylene glycol acetate" in the original text; the correct IUPAC name is vinyl acetate, synthesized from acetic acid and ethylene via an addition reaction).

Vinyl acetate, an organic compound with a unique chemical structure and physical properties, is a colorless, transparent liquid with a slightly irritating odor. Its versatility has cemented its role in industries such as plastics, adhesives, coatings, and pharmaceutical formulations, largely due to its excellent solubility and stability.

Before discussing its density, it is essential to revisit basic principles. Density, defined as the mass per unit volume of a substance, is typically expressed in grams per cubic centimeter (g/cm³) for liquids. Variations in density arise from differences in molecular weight, structure, and purity.

For vinyl acetate, the density is approximately 1.04 g/cm³ at standard conditions, meaning one cubic centimeter of the liquid weighs about 1.04 grams. This value serves as a key reference for correlating volume and mass.

density is not static. Temperature significantly impacts it: under standard atmospheric pressure (~1 atm), a 1°C change in temperature alters the density of a liquid by roughly 0.000026 g/cm³. Accurate measurements thus require environmental conditions matched to the substance being analyzed.

Other factors, including pressure, solvent types, and concentrations, also affect density. For instance, adding substances that modify intermolecular interactions can alter the density of mixtures.

Practical applications underscore the importance of density. In pharmaceuticals, precise volume calculations for vinyl acetate—used as a solvent—are vital for product quality and safety. Similarly, stoichiometric control in chemical reactions relies on accurate density measurements.

vinyl acetate’s density of 1.04 g/cm³ provides foundational insight for its handling and use. real-world applications demand consideration of environmental variables to ensure experimental accuracy and reliability. Only by accounting for these factors can we harness chemicals effectively, advancing science and society.

Note: The original text incorrectly refers to "ethylene glycol acetate" instead of "vinyl acetate." The translation above corrects this terminology for scientific accuracy. If the term "ethylene glycol acetate" was intentional, please clarify for adjustments.