How Do You Solve These Newton's Law Problems?

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Homework Help Overview

The discussion revolves around problems related to Newton's Laws, specifically focusing on forces acting on a particle at rest, the forces experienced by a parachutist after opening a parachute, and the tension in strings at various angles. Participants are attempting to analyze the forces involved and their relationships.

Discussion Character

  • Mixed

Approaches and Questions Raised

  • Participants explore the equilibrium condition of forces acting on a particle, questioning how to resolve forces into components. They discuss the application of F=ma for calculating forces and the role of gravity in the second problem. There are attempts to use trigonometric relationships to find unknown forces and tensions.

Discussion Status

Participants are actively engaging with the problems, sharing their attempts and reasoning. Some guidance has been provided regarding the equilibrium of forces and the use of trigonometry to resolve forces into components. There is a recognition of the need to consider multiple forces acting on the parachutist, and some participants express uncertainty about their calculations.

Contextual Notes

Participants are working under the constraints of homework rules, which may limit the information they can share or the methods they can use. There is an ongoing exploration of assumptions related to force directions and magnitudes.

ramenluver50
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Homework Statement



1)The particle shown below is at rest, where F = 65.0 N, and θ = 33.1°. Find the magnitudes of F1 and F2.
4-p-005-alt.gif


2)Just after opening a parachute of negligible mass, a parachutist of mass 99.5 kg experiences an instantaneous upward acceleration of 1.09 m/s2. Find the force of the air on the parachute.
-specifically magnitude

3)Find the tension in each string in the figure below, where θ1 = 41.0°, θ2 = 20.5°, and w = 28.0 N. for t1, t2, and t3

4-p-029-alt.gif



Homework Equations



F=ma

The Attempt at a Solution



i don't know...
 
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For the first one, if the particle is at rest, then what should the sum of the forces be in the x and y directions?
 
for the X and y for just F, i used sin 33.1=X/65 and for Y used cosine, but that's about the farthest I've went.
 
ramenluver50 said:
for the X and y for just F, i used sin 33.1=X/65 and for Y used cosine, but that's about the farthest I've went.

right, so if the particle is at rest, meaning it is in equilibrium, what should the resultant force be horizontally and vertically?
 
i think horizontal, but I am not sure
 
ramenluver50 said:
i think horizontal, but I am not sure

Are you familiar with the term equilibrium?
 
yes, where there is balance
 
ramenluver50 said:
yes, where there is balance

Right! So considering the x-direction, if there is balance, then shouldn't the forces point to the left be equal to the forces pointing to the right?

Similar for the y-direction.
 
so your saying if i just find the X and Y for F they X and Y should be the same force equivalence to F1 and F2? , i tried for X where sin 33.1=X/65, and X would be 35.5, apparently the answer is incorrect.
EDIT:*******
sorry, you are right, i entered the answer in the wrong answer slot, haha.. thx
 
  • #10
ramenluver50 said:
so your saying if i just find the X and Y for F they X and Y should be the same force equivalence to F1 and F2? , i tried for X where sin 33.1=X/65, and X would be 35.5, apparently the answer is incorrect.
EDIT:*******
sorry, you are right, i entered the answer in the wrong answer slot, haha.. thx

Now try the second and third problems.
 
  • #11
for Number 2,
i used the F=ma formula, where, 99.5 (1.09) to get the Newtons of 108, which is wrong...for #3, i got T3 which is 28 N, but for T1 and T2, do i just used T3 as the vertical measurement to find T1 and T2 ?
 
  • #12
ramenluver50 said:
for Number 2,
i used the F=ma formula, where, 99.5 (1.09) to get the Newtons of 108, which is wrong...

108 is the resultant force on the body, what other forces are acting on the body?

ramenluver50 said:
for #3, i got T3 which is 28 N, but for T1 and T2, do i just used T3 as the vertical measurement to find T1 and T2 ?

Yes, that should work.
 
  • #13
2) there is also gravity,not sure what to do with it though,

3) i did sin 41=28/T1 which gave me 42.6 , that isn't right bc its force is larger... :-/
 
  • #14
ramenluver50 said:
2) there is also gravity,not sure what to do with it though

There is the force of gravity and what other force? (they asked you to find this force)


ramenluver50 said:
3) i did sin 41=28/T1 which gave me 42.6 , that isn't right bc its force is larger... :-/

You have T1 and T2 acting at their respective angles. These two force both have components in the x and y directions. What are these components? If the figure is in equilibrium, the sum of forces in any direction is ?
 
  • #15
thx i got number 3 down,

the other resistance for number 2 is air...
 
  • #16
ramenluver50 said:
thx i got number 3 down,

the other resistance for number 2 is air...

Good, so what directions do the weight and the force of air act?
 
  • #17
wieght is downward force, and air is up...
 
  • #18
ramenluver50 said:
wieght is downward force, and air is up...

Then what would be an expression in terms of these two for the resultant force?
 
  • #19
Newtons...?
 
  • #20
A force is a vector quantity,

which means it has a magnitude and a direction,

in your first question you are given the magnitude of the force = 65 N and the direction to be 65degrees
in the x&y direction

you can separate this force into the two forces that make that force i.e
Ftotal = Fxdirection + Fydirection

but you're probably wondering how you get the force in the X direction from the total force?

use trigonometry , that is your F total to be the hypotenuse, Fx to be your adjacent, and Fy to be your opposite

just use basic trigonometry to figure fx and fy out

and you know that the particle is at rest,
so f1 must = -fx
and f2 = -fy
otherwise the particle would start moving!
 

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