The outlet velocity will be 1/4^th of the inlet velocity to conserve kinetic ene
ID: 1419888 • Letter: T
Question
The outlet velocity will be 1/4^th of the inlet velocity to conserve kinetic energy according to Bernoulli's Equation. The outlet velocity will be twice the inlet velocity since mass must be conserved The velocity will increase but we can't tell how much with the information given The velocity will decrease but we can't tell how much with the information given The plunger on the syringe below is rapidly pressed which causes the liquid to come out of the orifice at point(B), as seen in the figure. Rank points A - D in order of highest to lowest kinetic energy. If equal kinetic energies are encountered, place an equal sign between them. e.g. (h > j > k = m > p would be an appropriate form). Answer:________Explanation / Answer
Appying Bernoullis equation and Newton's Law
Here, Ranking of kinetic energy
=> D > B > A = C
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