Fireman with a firehose scenario

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Discussion Overview

The discussion revolves around a hypothetical scenario involving a fireman using a firehose aimed at a doorway. Participants explore whether the fireman would experience different forces pushing him back when the door is closed compared to when it is open, focusing on the principles of fluid dynamics and Newton's laws of motion.

Discussion Character

  • Exploratory
  • Technical explanation
  • Debate/contested

Main Points Raised

  • One participant suggests that the force experienced by the fireman will not change significantly with the door closed, except for potential stray water effects.
  • Another participant argues that the force exerted by the water is independent of the conditions in front of the nozzle, relying on Newton's second and third laws.
  • Some participants express uncertainty, indicating that if the flow rate of water remains constant, the force should not differ based on the door's position.
  • One participant raises the idea that if the nozzle is extremely close to the wall, there might be a difference in force, suggesting a nuanced view on the impact of proximity to the door.
  • A later reply clarifies that the focus is on measuring the force at the nozzle when the door is closed and suggests a scenario where the door touches the nozzle.

Areas of Agreement / Disagreement

Participants do not reach a consensus on whether the force experienced by the fireman changes with the door's position. Multiple competing views remain regarding the influence of the door on the force felt by the fireman.

Contextual Notes

Participants discuss the implications of fluid dynamics and Newton's laws, but there are unresolved assumptions regarding the flow rate and the effects of water behavior near the door.

engkyq
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Hi, this is my first post and am trying to answer the following scenario out of a general curiousity.

Scenario:
Suppose a firemen is standing in front of a doorway with a firehose.
He then points the nozzle of the firehose at the doorway a foot behind the door frame
He then turns on the water to a level where he is barely able to keep from being pushed back by the water exiting the nozzle.
The door is then closed and the water is hitting it at a foot distance from the nozzle.

Question:
Will the fireman experience more force pushing him back with the door closed than with the door opened? If yes, what are the laws to explain this?

Thanks!
 
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It depends, he will not experience a different force outside of stray water bouncing back and hitting him. However, with a fire hose at 1ft away, that would be a very significant force, but if you move a few feet back, the fireman will not feel much water bouncing back and hitting him. The important point is, however, that the water ejects with a force that is completely independent of what is infront of it.

The force of the water comes from Newton's third and 2nd law. The water going through a nozzle will have its velocity increased since the area of the opening becomes smaller. This change in velocity creates a change in momentum which translates into a force that accelerates the water. Now the third law says that an equal and opposite force will be felt, and in this case, it would be onto the fireman. However, that is where the forces stop. They are not dependent on what happens to that water once it leaves the nozzle.
 
I'm not sure, but my inclination is to say that, if the rate of water ejection is constant (ie: the flow rate is not affected by the nozzle being close to the door) then there will be no extra force. My reasoning is that the force is the rate of change of momentum, which is proportional to the rate at which water is ejected out of the hose.

I would alos be interested to hear from someone more knowledgeable.
 
There will be no extra reactive force on the nozzle. As stated above, there could be some extra force if there is water bouncing back and hitting the fireman, but that seems to be a separate issue from the main question.
 
I'm not so sure. If the hose was, say, a tenth of a milimeter from the wall, then I'm pretty sure that it *would* be different from if there was no wall there. So at some point it has to be a question of degree.
 
Thanks for the responses!

I'm only interested if the nozzle will feel additional force pushing it back once the door has closed. Assume a scale is attached to the nozzle, perpendicular to the doorway, to measure the force that is pushing it back. To expand on the scenario, after the door has closed, let's move it towards the nozzle until it touches it.
 

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