0.50 cm radius 1.0 cm radius 0.0010 m beaker 4. A 1.0 cm radius hose with a 0.50 cm radius exit nozzle is being used to fill a 1000 ml beaker with oil (1000 ml=0.0010 m³). The velocity of the oil in the hose is v = 0.40m/s as shown in the figure. The density of the oil is 960 kg/m³, and the atmospheric pressure is 1.01 x 10° Pa. (a) The nozzle attached to the end of the hose has a smaller radius than the hose. If the nozzle is removed from the hose, will the beaker be filled faster? Justify your answer with conservation laws.
0.50 cm radius 1.0 cm radius 0.0010 m beaker 4. A 1.0 cm radius hose with a 0.50 cm radius exit nozzle is being used to fill a 1000 ml beaker with oil (1000 ml=0.0010 m³). The velocity of the oil in the hose is v = 0.40m/s as shown in the figure. The density of the oil is 960 kg/m³, and the atmospheric pressure is 1.01 x 10° Pa. (a) The nozzle attached to the end of the hose has a smaller radius than the hose. If the nozzle is removed from the hose, will the beaker be filled faster? Justify your answer with conservation laws.
Welding: Principles and Applications (MindTap Course List)
8th Edition
ISBN:9781305494695
Author:Larry Jeffus
Publisher:Larry Jeffus
Chapter18: Gas Tungsten Arc Welding Of Pipe
Section: Chapter Questions
Problem 23R: Why should the filler pass penetration be limited in depth?
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Question
Transcribed Image Text:0.50 cm
radius
1.0 cm radius
0.0010 m beaker
4. A 1.0 cm radius hose with a 0.50 cm radius exit nozzle is being used to fill a 1000 ml beaker with oil
(1000 ml=0.0010 m³). The velocity of the oil in the hose is v = 0.40m/s as shown in the figure. The density of the
oil is 960 kg/m³, and the atmospheric pressure is 1.01 x 10° Pa.
(a) The nozzle attached to the end of the hose has a smaller radius than the hose. If the nozzle is removed from
the hose, will the beaker be filled faster? Justify your answer with conservation laws.
Transcribed Image Text:(c) How long will it take to fill the beaker?
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