Vectors acting on a mass on an incline

AI Thread Summary
The discussion focuses on understanding the vectors acting on a mass resting on an incline for a lab report. Key vectors include the gravitational force (Fg), which acts straight down, the normal force (Fn), which is perpendicular to the incline, and the frictional force (Ff), which is parallel to the surface. Participants clarify the roles of these forces and their directions in relation to the incline. The conversation also touches on the concept of net force and acceleration, emphasizing that an object at rest has no acceleration. The thread concludes with the user feeling satisfied with the explanation and ready to complete their report.
fgarcia08
Messages
9
Reaction score
0
[SOLVED] vectors acting on a mass on an incline

hey guys! well i have this lab report due tomorrow and there is one part that I'm missing. For the discussion part i have to "draw and label the vectors acting on a mass resting on an incline" you know like mg and FN and all that fun stuff but i don't really know where they go

help would be so appreciated...
 
Physics news on Phys.org
please use black text.
 
hey guys! well i have this lab report due tomorrow and there is one part that I'm missing. For the discussion part i have to "draw and label the vectors acting on a mass resting on an incline" you know like mg and FN and all that fun stuff but i don't really know where they go

help would be so appreciated...
there its black...
 
well do you know which directions Fn, Fg and Ff act in relation to the incline?
 
well i remember just fn goes up on the y-axis in relation to the incline and fg down but there's another one its fg cos or sin then the "o" with the line halfway through it and that's the one that i don't know where to put... do u know?
 
Fg actually goes straight down in relation to the object, not along the y-axis. the other vector is there, and is equal to (mu)Fn
 
oh okay now i get it its fG because of gravity so its straight down right? and then the (mu) Fn is the other one that i was talking about?
 
yes. i guess you have not learned about friction yet then?
 
yes i have its the one that goes opposite the umm gosh i forget the name
 
  • #10
it is perpendicular to the normal, and parallel to the surface.

here's a hint: is the mass accelerating? what does the net force need to be?
 
  • #11
oh okay so now i need to know what to draw for that part. and fnet needs to be the acceleration times the mass right? that sounds familiar isn't that a formula?
 
  • #12
an object at rest has acceleration = ?
 
  • #13
false an object at rest doesn't have acceleration because acceleration is the difference of final and initial velocity divided by time and if its at rest its not going anywhere
 
  • #14
so there is no velocity to begin with
 
  • #15
there is no velocity in the end either. there are only three forces, and you need to draw them in. you already said that Fg is straight down, while Fn is perpendicular to the grade and Ff is parallel.
 
  • #16
so that's it I am done...thank you very much
 

Similar threads

How does the incline of the rod depend on mass and force F?
Replies
17
Views
2K
B Determine forces acting on double inclined plane
Replies
13
Views
2K
Center of mass and momentum- A question about systems
Replies
25
Views
1K
Stopping Distance affected by Mass of Cart on Inclined Plane
Replies
1
Views
4K
Pushing an incline so mass on ramp accelerates upward
Replies
21
Views
3K
Magnetic Force/Field, Current, Inclined Plane Problem
Replies
4
Views
6K
HELP Find the mass in this inclined pulley system, required to move the 2 masses
Replies
4
Views
4K
Incline Plane Problem given mass, friction, 2 velocities
Replies
3
Views
3K
Mass on inclined plane, string has mass
Replies
5
Views
5K
How Do You Calculate the Maximum Angle of Inclination After a Collision?
Replies
10
Views
3K

Hot Threads

Recent Insights

Back
Top