Environmental Applications of Newton's Third Law

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Homework Help Overview

The discussion revolves around the environmental applications of Newton's third law, alongside questions regarding the implications of constant velocity and zero net force in physics. Participants are exploring foundational concepts in mechanics and their relevance to real-world scenarios.

Discussion Character

  • Exploratory, Conceptual clarification, Problem interpretation

Approaches and Questions Raised

  • Participants discuss the relationship between acceleration and velocity, particularly in the context of constant velocity and zero net force. There are inquiries about how Newton's third law applies to environmental contexts, such as propulsion systems and firefighting techniques.

Discussion Status

The conversation is ongoing, with participants providing clarifications on the relationship between acceleration and velocity. Some are seeking further insights into the environmental applications of Newton's laws, indicating a productive exploration of the topic without reaching a consensus.

Contextual Notes

One participant expresses a need for additional examples of environmental applications related to Newton's laws, highlighting a potential gap in their understanding and the constraints of time as they work on homework.

babuloseo
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Ah hi there, I would just like to know the environmental applications of Newton's third law?

Also fnet= 0; how does an object have constant velocity, is it 0? that's why its constant since its acceleration is 0??

please, I am new.. to physics.. and this forumz.
 
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Welcome :].Acceleration is the first time derivative of velocity, so you can say that:

a = 0
dv/dt = 0

Integrating this would get you that:

v = c Velocity is some constant value. Could also be zero if at rest.

So when you have that acceleration is zero, you can either have constant velocity or an object at rest.
 
thepatient said:
Welcome :].


Acceleration is the first time derivative of velocity, so you can say that:

a = 0
dv/dt = 0

Integrating this would get you that:

v = c Velocity is some constant value. Could also be zero if at rest.

So when you have that acceleration is zero, you can either have constant velocity or an object at rest.
Oh thanks, that makes me eased up at the concept, now I can finish my homework with no head ache :)

But I still need to know the environmental applications of Newtons Laws, can't think and its 1am.. any further help will be appreciated :)
 
Another way you can see it is that acceleration is the change in velocity over a certain period of time. If you have that your velocity is zero at time one, and zero velocity at time two, then the change in velocity is zero, or acceleration is zero.

a = ∆v/∆t = (vf - vi)/(tf - ti) = (0-0)/(t2 -t1) = 0
 
Structures of course. You want net forces to equal zero on any structure in order to not accelerate on their own. XD
 
Yeah, that's for the second law of Newtons >.<, and maybe the first one.. But what about the third.. I only keep thinking of propulsion systems.. how does helicopteres throw water down or whatever chemicals to help stop forest fires?

I need to know the technological, environmental, social (got it already) applications of Newtons first,second, and third law (finished third law).
 
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