Solving Block on Incline Homework: F_w, F_n, F_f, & Theta

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SUMMARY

The discussion centers on analyzing forces acting on a block on an inclined plane, specifically focusing on the normal force (F_n), frictional force (F_f), and gravitational force (F_w) at an angle theta. Participants clarify which forces align with different coordinate systems, emphasizing that F_f and F_n are aligned with the axes in the vertical coordinate system. The conversation highlights the importance of resolving forces into components for further calculations in parts C to E, where participants derive expressions for the sum of forces in both x and y directions.

PREREQUISITES
  • Understanding of Newton's laws of motion
  • Familiarity with trigonometric functions in physics
  • Knowledge of force resolution techniques
  • Basic concepts of static friction and normal force
NEXT STEPS
  • Study the derivation of normal force in inclined planes using F_w and theta
  • Learn about static friction coefficients and their impact on motion
  • Explore the application of trigonometric functions in force resolution
  • Practice solving equilibrium problems involving multiple forces
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Students studying physics, particularly those focusing on mechanics and force analysis, as well as educators looking for examples of force resolution on inclined planes.

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Homework Statement



A block lies on a plane raised an angle theta from the horizontal. Three forces act upon the block: F_w_vec, the force of gravity; F_n_vec, the normal force; and F_f_vec, the force of friction. The coefficient of friction is large enough to prevent the block from sliding .

MFS_1l_1.jpg



Part A
Consider coordinate system a, with the x-axis along the plane. Which forces lie along the axes?

Part B
Which forces lie along the axes of the coordinate system b, in which the y-axis is vertical?

Now you are going to ignore the general rule (actually, a strong suggestion) that you should pick the coordinate system with the most vectors, especially unknown ones, along the coordinate axes. You will find the normal force, F_n_vec, using vertical coordinate system b. In these coordinates you will find the magnitude F_n appearing in both the x and y equations, each multiplied by a trigonometric function.

Part C
Because the block is not moving, the sum of the y components of the forces acting on the block must be zero. Find an expression for the sum of the y components of the forces acting on the block, using coordinate system b.
Express your answer in terms of some or all of the variables F_n, F_f, F_w, and theta.

Part D
Because the block is not moving, the sum of the x components of the forces acting on the block must be zero. Find an expression for the sum of the x components of the forces acting on the block, using coordinate system b.
Express your answer in terms of some or all of the variables F_n, F_f, F_w, and theta.

Part E
To find the magnitude of the normal force, you must express F_n in terms of F_w since F_f is an unknown. Using the equations you found in the two previous parts, find an expression for F_n involving F_w and theta but not F_f.


For Part A, the answer was F_f and F_n, but I really don't understand how because of what the question asks me to do. Is it because in that coordinate plane, Normal Force and Frictional force are directly on the axes already there?
 
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Hi Chandasouk! :smile:

(try using the X2 tag just above the Reply box :wink:)
Chandasouk said:
Part A
Consider coordinate system a, with the x-axis along the plane. Which forces lie along the axes?

Part B
Which forces lie along the axes of the coordinate system b, in which the y-axis is vertical?

For Part A, the answer was F_f and F_n, but I really don't understand how because of what the question asks me to do. Is it because in that coordinate plane, Normal Force and Frictional force are directly on the axes already there?

Yes. It's not a trick question. It really is only asking which forces lie along each axis.

As the question goes on to say, usually you'd use the "best" axes, judging by exactly that criterion.

But the question has decided, in parts C to E, to give you plenty of practice at resolving forces into components, and at solving differential equations … which you wouldn't get if it let you do it the easy way! :biggrin:

What do you get? :smile:
 

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