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2) 3 different forces were applied on same point. If the resultant force is on negative...
3. Determine the resultant force R of the two forces applied at point A. Fi =...
3. Determine the resultant force R of the two forces applied at point A. Fi = 3 kN 30 A F=7KN A.
with a diagram 3. Determine the resultant force R of the two forces applied at point...
with a diagram
3. Determine the resultant force R of the two forces applied at point A. Fi = 3 kN 30 A F=7KN A.
Three forces are applied by cables on an i-bolt as shown. Find the resultant force (magnitude...
Three forces are applied by cables on an i-bolt as shown. Find the resultant force (magnitude and angle) given the following: F1-600 N, F2-800 N, F3-450 N, θ,-60°, θ,-45°, θ,-75° 1. Fi F2 0,
To calculate the resultant couple and force at a point for a given force and couple...
To calculate the resultant couple and force at a point for a
given force and couple system.
Two forces F1F1F1 = 75 NN and F2F2F2 = 255 NN and two moments
M1M1M1 = 100 N⋅mN⋅m and M2M2M2 = 50 N⋅mN⋅m act on the beam as shown
in (Figure 1).
DO NOT ATTEMPT TO ANSWER IF YOU ARE NOT AN EXPERT, AVOID
BEING REPORTED, ONLY ANSWER IF YOU TRULY KNOW WHAT YOU ARE DOING
AND ARE AN EXPERT IN THE SUBJECT!...
The forces shown in the figure below are applied to an object. Find the third force that will produce a zero resultant force.
The forces shown in the figure below are applied to an object.
Find the third force that will produce a zero resultant force.
(Take the x-axis along the horizontal direction, and F = 55.1
lb.)
What is the net force on the object below (i.e. what resultant vector represents the sum...
What is the net force on the
object below (i.e. what resultant vector represents the sum of
forces A, B, C.)? See attached photo.
ENS 306 Biomechanics-Spring 2019-Homework 2 3-4. What is the net force on the object below (i.e. what resultant vector represents the sum of forces A, B, and C).? B40 N C 100 N A 150 N 3) What is the magnitude of the net force vector (in N)? 4) What is the direction (angle) of the...
3. Three forces are applied to a bracket mounted on a post as shown (a) The...
3. Three forces are applied to a bracket mounted on a post as shown (a) The magnitude and direction 120 lb 45° 30° Determine 140 1b (angle θ ) of the resultant R of the three forces. 100 1b (b) The magnitudes of two other forces F and F that would have the same resultant.
Two forces, F? 1 and F? 2, act at a point, as shown in the picture....
Two forces, F? 1 and F? 2, act at a point, as
shown in the picture. (Figure 1) F? 1 has a magnitude of
9.20 N and is directed at an angle of ? = 65.0 ? above the
negative xaxis in the second quadrant. F? 2 has a
magnitudeof 5.80 N and is directed at an angle of ? = 53.9
? below the negative x axis in the third quadrant.
Part A
What is the x component Fx...
Force F, 1 kN, is applied in the negative y-direction at point B. The magnitudes of...
Force F, 1 kN, is applied in the negative y-direction at point
B. The magnitudes of the tension in the cables are T(BC) = 707 N
and T(BD) = 1500 N. Point E is 3m from point A.
a) Calculate the vectors representing the tensions in the
cables.
b) Determine the internal force and moment system in the bar at
x-section E. Show the internal forces and moment on free body
diagram.
6 m I) 6 3
Two forces, F⃗ 1 and F⃗ 2, act at a point. F⃗ 1 has a magnitude...
Two forces, F⃗ 1 and F⃗ 2, act at a point. F⃗ 1 has a magnitude of 9.80 N and is directed at an angle of 60.0 ∘ above the negative x axis in the second quadrant. F⃗ 2 has a magnitude of 6.00 N and is directed at an angle of 52.1 ∘ below the negative x axis in the third quadrant. What is the x component of the resultant force? What is the y component of the resultant...
3. Determine the resultant force R of the two forces applied at point A. Fi = 3 kN 30 A F=7KN A.
with a diagram
3. Determine the resultant force R of the two forces applied at point A. Fi = 3 kN 30 A F=7KN A.
Three forces are applied by cables on an i-bolt as shown. Find the resultant force (magnitude and angle) given the following: F1-600 N, F2-800 N, F3-450 N, θ,-60°, θ,-45°, θ,-75° 1. Fi F2 0,
To calculate the resultant couple and force at a point for a
given force and couple system.
Two forces F1F1F1 = 75 NN and F2F2F2 = 255 NN and two moments
M1M1M1 = 100 N⋅mN⋅m and M2M2M2 = 50 N⋅mN⋅m act on the beam as shown
in (Figure 1).
DO NOT ATTEMPT TO ANSWER IF YOU ARE NOT AN EXPERT, AVOID
BEING REPORTED, ONLY ANSWER IF YOU TRULY KNOW WHAT YOU ARE DOING
AND ARE AN EXPERT IN THE SUBJECT!...
What is the net force on the
object below (i.e. what resultant vector represents the sum of
forces A, B, C.)? See attached photo.
ENS 306 Biomechanics-Spring 2019-Homework 2 3-4. What is the net force on the object below (i.e. what resultant vector represents the sum of forces A, B, and C).? B40 N C 100 N A 150 N 3) What is the magnitude of the net force vector (in N)? 4) What is the direction (angle) of the...
3. Three forces are applied to a bracket mounted on a post as shown (a) The magnitude and direction 120 lb 45° 30° Determine 140 1b (angle θ ) of the resultant R of the three forces. 100 1b (b) The magnitudes of two other forces F and F that would have the same resultant.
Two forces, F? 1 and F? 2, act at a point, as
shown in the picture. (Figure 1) F? 1 has a magnitude of
9.20 N and is directed at an angle of ? = 65.0 ? above the
negative xaxis in the second quadrant. F? 2 has a
magnitudeof 5.80 N and is directed at an angle of ? = 53.9
? below the negative x axis in the third quadrant.
Part A
What is the x component Fx...
Force F, 1 kN, is applied in the negative y-direction at point
B. The magnitudes of the tension in the cables are T(BC) = 707 N
and T(BD) = 1500 N. Point E is 3m from point A.
a) Calculate the vectors representing the tensions in the
cables.
b) Determine the internal force and moment system in the bar at
x-section E. Show the internal forces and moment on free body
diagram.
6 m I) 6 3
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