Mechanical Engineering Archive: Questions from August 26, 2022
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Given that the box has a weight of 50 lb and the tension force due to the rope is 38 lb. Enter the value of the normal force in lbs.
Dado que la caja tiene un peso de 50 lbf, y la fuerza de tensión debido a la soga es de 38 lbf Ingrese el valor de la fuerza normal en Ibf. (no ingrese unidades)1 answer -
angle = 30
Deternine ia fiamcze de friccioith detido a La superfice en N Ao ingrese unidades. The box is lowered a few centimeters starting from rest and the surface has a coefficient of friction of \( 0.65 \).2 answers -
The package travels down the ramp inclined at 74 degrees measured from the horizontal. The package weighs \( 33 \mathrm{lbf} \). The surface has a coefficient of friction of \( 0.18 \). Enter the norm1 answer -
The package travels down the ramp inclined at 34 degrees measured from the horizontal. The package weighs 54 lbf. The surface has a coefficient of friction of \( 0.33 \). Enter the friction force due1 answer -
If the tension force due to the rope is 33 Ibf, the component of the force due to the tension in the rope on the vertical axis is: DO NOT enter units but with the sign if it is negative. Si la fuerza1 answer -
The box is lowered a few inches starting from rest, and the surface has a coefficient of friction of \( 0.20 \). The weight of the box is \( 59 \mathrm{~N} \) and the force exerted by the spring is \(1 answer -
The box is lowered a few centimeters starting from rest, and the surface has a coefficient of friction of \( 0.51 \). The weight of the box is \( 79 \mathrm{~N} \) and the force exerted by the spring1 answer -
Given the value of the weight of the box of \( 42 \mathrm{lbf} \) and the tension force due to the rope of \( 11 \mathrm{lbf} \) Enter the value of the friction force in Ibf since the coefficient of f2 answers -
The package travels down the ramp inclined at 48 degrees measured from the horizontal. The package weighs 14 lbf. The surface has a coefficient of friction of \( 0.48 \). Enter the force causing displ1 answer -
Determine the magnitude of the force in cable AB. You know that the cables AD and AC have half the value of the force of cable AB. d1=2 meters d2=4 meters d3=8 meters m=57kg Force "AB" of cable AB ___
Determine la magnitud de la Fuerza del cable \( A B \) de manera que la fuerza en los cables \( A D \) y \( A C \) tenga la mitad del valor de la fuerza del cable \( A B \). \[ \begin{array}{l} d_{1}=2 answers -
Find the magnitude of the force "F"
Si la fuerza resultante que actúa sobre la ménsula debe estar dirigida a lo argo del eje "x" positivo, determine la magnitud de la Fuerza F. \[ \begin{array}{c} \mathrm{F}_{1}=456 \mathrm{~N} \\ \ma1 answer -
Find the Force "AD"
Determine la magnitud de la Fuerza del cable AD de manera que la fuerza en los cables \( A D \) y \( A C \) tenga la mitad del valor de la fuerza del cable \( A B \). \[ \begin{array}{l} d_{1}=3 \math2 answers -
\[ \begin{array}{l} d_{1}=3 \mathrm{~m} \\ d_{2}=4 \mathrm{~m} \\ \mathrm{~d}_{3}=6 \mathrm{~m} \\ \mathrm{~m}=119 \mathrm{~kg} \end{array} \] Fuerza "AB" del cable \( A B \)1 answer -
Determine la magnitud de la Fuerza del cable AC de manera que la fuerza en los cables AD y AC tenga la mitad del valor de la fuerza del cable AB. \[ \begin{array}{l} d_{1}=2 m \\ d_{2}=3 m \\ d_{3}=81 answer -
Please don't say language problem. If you know solve it. Otherwise skip it
Si el bloque se mantiene en la posición de equilibrio mostrada, determine la masa del bloque D. La longitud no alargada del resorte \( A B \) es de \( 8 \mathrm{~m} \). \[ \begin{aligned} d_{1} &=7 \1 answer