Newtonian Mechanics vector solution needed to find the range of forces (P) that satisfy Fnetx = 0

조회 수: 40 (최근 30일)
Doug Leaffer
Doug Leaffer 2025년 11월 12일 20:47
댓글: Doug Leaffer 2025년 11월 13일 13:51
Ran in:
% Find vector of P values to keep block in equilibrium
ramp.jpg
% Variables Given
m = 100; % mass, kg
angle_ramp = 15; % degrees
angle_bar = 20; % degrees
g = 9.81; % gravity (m/s^2)
coeff = 0.3; % coefficient of static friction
% Calculations
P = [-600:0.1:600]; % vector of range for P (Newtons)
W = m*g;
Px = P*cosd(angle_bar); Py = sind(angle_bar);
N = W*cosd(angle_ramp)-Py;
Fx = W*sind(angle_ramp); Fs = coeff*N;
% Find P values for Fnet(x) = 0
if P > 0 % pulling force
Fnetx = Px - Fx - Fs;
else % pushing force or zero force applied
Fnetx = Px - Fx + Fs;
end
find(Fnetx==0)
ans = 1×0 empty double row vector

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Torsten
Torsten 2025년 11월 12일 21:32
편집: Torsten 2025년 11월 12일 22:08
Ran in:
Your search will never find a value for P for which Fnetx is exactly 0.
Better use "fsolve" to solve for the corresponding root of Fnetx(P) = 0.
P0 = 600;
P = fsolve(@fun,P0,optimset('Display','none'))
P = 516.3332
[res,Px,Py] = fun(P)
res = -7.9902e-08
Px = 485.1945
Py = 176.5964
P0 = -30;
P = fsolve(@fun,P0,optimset('Display','none'))
P = -36.2812
[res,Px,Py] = fun(P)
res = 3.4890e-10
Px = -34.0932
Py = -12.4089
function [Fnetx,Px,Py] = fun(P)
% Variables Given
m = 100; % mass, kg
angle_ramp = 15; % degrees
angle_bar = 20; % degrees
g = 9.81; % gravity (m/s^2)
coeff = 0.3; % coefficient of static friction
% Calculations
W = m*g;
Px = P*cosd(angle_bar); Py = P*sind(angle_bar);
N = W*cosd(angle_ramp)-Py;
Fx = W*sind(angle_ramp); Fs = coeff*N;
% Find P values for Fnet(x) = 0
if P > 0 % pulling force
Fnetx = Px - Fx - Fs;
else % pushing force or zero force applied
Fnetx = Px - Fx + Fs;
end
end
Or use
[~,idx] = min(Fnetx.^2);
P(idx)
at the end of your code to get an approximate value for P.

추가 답변 (2개)

Doug Leaffer
Doug Leaffer 2025년 11월 12일 21:44
Thank you @Torsten
I found another MATLAB code solution which is accurate as I checked it in Excel using Goal Seek
=> Block remains in equilibrium for -36.28 ≤ P ≤ 516.33 N
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이전 댓글 2개 표시
Torsten
Torsten 2025년 11월 12일 22:13
편집: Torsten 2025년 11월 12일 22:17
The block cannot be in equilibrium at P = +572.6 N, it would move up the ramp if P > 516.33 N
Yes, you made a mistake when specifying Py in your code. I corrected that (see below).
Still I cannot follow your argumentation concerning the range for P, but I'm not a physicist.

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Paul
Paul 2025년 11월 13일 3:57
Ran in:
Here is an algebraic solution; I suspect one could do the whole thing symbolically and then sub the numbers at the end.
Note that my expression for Fnetx is different because, to my understanding, the relative motion resisted by the static friction depends on the sign of Px - Fx, not Px (nor P!) alone. That is, we need Px > Fx for the block to want to slide up the hill and Fx > Px for the block to want to slide down the hill. Comes up with the same solutions for the parameters for this problem.
Disclaimer: I haven't done statics in more time than I care to admit.
syms P real
m = 100; % mass, kg
angle_ramp = 15; % degrees
angle_bar = 20; % degrees
g = 9.81; % gravity (m/s^2)
coeff = 0.3; % coefficient of static friction
W = m*g;
Px = P*cosd(angle_bar); Py = P*sind(angle_bar);
N = W*cosd(angle_ramp) - Py;
Fx = W*sind(angle_ramp);
Fs = coeff*N;
Fnetx = Px - Fx - Fs*sign(Px-Fx);
figure
fplot(Fnetx,[-100,600]),grid
assume(Px-Fx > 0) % motion tends up the hill
Ppos = vpa(solve(Fnetx,P))
Ppos = 
516.33324748670646195665428956607
assume(Px-Fx < 0) % motion tends down the hill
Pneg = vpa(solve(Fnetx,P))
Pneg = 

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