A farmer making grape juice fills a glass bottle to the brim and caps it tightly. The juice is warmed up, such that the volume of the juice would increase by 2.5% were it not constrained in the bottle. Calculate the increase in force exerted by the juice per square centimeter (in N/cm2) if its bulk modulus is 2.4 x 10° N/m2, assuming the bottle does not break. (Assume the expansion of the glass is negligible. Enter the magnitude.) 6000000000 x N/cm2

A farmer making grape juice fills a glass bottle to the brim and caps it tightly. The juice is warmed up, such that the volume of the juice would increase by 2.5% were it not constrained in the bottle. Calculate the increase in force exerted by the juice per square centimeter (in N/cm2) if its bulk modulus is 2.4 x 10° N/m2, assuming the bottle does not break. (Assume the expansion of the glass is negligible. Enter the magnitude.) 6000000000 x N/cm2

Physics for Scientists and Engineers: Foundations and Connections

1st Edition

ISBN:9781133939146

Author:Katz, Debora M.

Publisher:Katz, Debora M.

Chapter14: Static Equilibrium, Elasticity, And Fracture

Section: Chapter Questions

Problem 47PQ

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Question

A farmer making grape juice fills a glass bottle to the brim and caps it tightly. The juice is warmed up, such that the volume of the juice would increase by 2.5% were it not constrained in the bottle.
Calculate the increase in force exerted by the juice per square centimeter (in N/cm2) if its bulk modulus is 2.4 x 109 N/m2, assuming the bottle does not break. (Assume the expansion of the glass is
negligible. Enter the magnitude.)
60000000001x N/cm2

Normal forces of magnitude 3.0 x 10° N are applied uniformly to a spherical surface enclosing a volume of a liquid. This causes the radius of the surface to decrease from 49.000 cm to 48.997 cm.
What is the bulk modulus of the liquid (in Pa)?
4960000000
Pa

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