Problem 6: Inputs: ● ● ● ● ● F₁ = 600 N F₂ = 100 N F3 = 150 N L₁= 0.50 m L2= 1.25 m ● 0 = 85° 0.1 m + O 0.1 m We will create an equivalent system at point O. Technically speaking, we must replace the force and couple system shown by an equivalent system at point O. L₁ a) Compute the magnitude of the resultant force required to make the equivalent system b) What is the direction of the resultant force, relative to horizontal (i.e. relative to the positive x-axis)? F₂ 0 L₂ F₁ c) What is the magnitude of the resultant couple moment which must be applied at point O in order to make the equivalent system? Be sure to indicate direction with your boxed answer. 3

Problem 6: Inputs: ● ● ● ● ● F₁ = 600 N F₂ = 100 N F3 = 150 N L₁= 0.50 m L2= 1.25 m ● 0 = 85° 0.1 m + O 0.1 m We will create an equivalent system at point O. Technically speaking, we must replace the force and couple system shown by an equivalent system at point O. L₁ a) Compute the magnitude of the resultant force required to make the equivalent system b) What is the direction of the resultant force, relative to horizontal (i.e. relative to the positive x-axis)? F₂ 0 L₂ F₁ c) What is the magnitude of the resultant couple moment which must be applied at point O in order to make the equivalent system? Be sure to indicate direction with your boxed answer. 3

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

See similar textbooks

Related questions

Q: 3. The tank shown has a parabolic curve gate at the bottom right side of length h perpendicular to…

A: "Since you have posted a question with the multiples subparts. We will solve first three for you. To…

Q: Q2: Determine completely the resultant R of the three forces shown in the figure below. 60 kN 100 kN…

A: Given that:

Q: 7 N 20° 30° 5 N

A: solution find the forces in x direction Fx=Zsin20 + 5 -7cos30 = 0.34Z -1.0621 find the forces in y…

Q: Shsider the compound beam shown in (Figure 1). Assume C is a roller, B is a pin, and A is fixed.…

Q: A closed cylindrical vessel contains a fluid at a pressure of 625 psi. The cylinder, which has an…

Q: Consider the beam shown in (Figure 1). Suppose that w₁ = 300 lb/ft and w₂ = 130 lb/ft Figure < 1 of…

A: Objective: To determine the components of support reactions for the given beam. Given: Distributed…

Q: The force between two charges is 120 N. if the distance between the charges is doubled, the force…

Q: Given the two-dimensional velocity field V = 2 xi+5yj, where x is in cm, and V is in cm/s, what is…

A: Solution solution of above question are following

Q: Question 4: Determine the force (p) required to maintain in equilibrium for the system shown in the…

A: Given diameter of the cylinder D=5 marea of the cylinder A=π4×D2=π4×52=19.63 m2volume of the…

Q: The force R is the resultant of the other three concurrent forces shown. * The value of P is R 20°…

Q: A 500 N-m D 0.3 m 1.5 m B 0.2 m The solid steel shaft shown in the figure has a diameter of 20 mm.…

Q: A vertical triangular gate with Alcohol (SG = 0.78) on one side is shown in the %D figure. Determine…

A: Let's unit weight of water (Yw) = 62.4 lb/ft3

Q: in Newton), and one couple. Determine the equivalent force-couple system with the force acting at…

A: Solution: ∑Fx=90+50Cos 40+-100×35 =68.3∑Fy=50Sin 40-100×45…

Q: Part A Determine the moment produced by force FB about point O (Figure 1). Express the result as a…

A: Given :

Q: Determine the magnitude of the resultant force (in N) of the coplanar force system shown in the…

Q: e 390-kg drum has a center of mass at point G. The grip at B on member DAB sists both horizontal and…

A: Given:- mass=300kgTo find:-Ax,Ay,Nc,Nd

Q: 3. The tank shown has a parabolic curve gate at the bottom right side of length h perpendicular to…

Q: Fluid flows past the two dimensional bar shown in figure. The pressures on the ends of the bar are…

Q: Q2. A thermo gate consist of an aluminum plate AB and a magnesium plate CD, each having a width of…

A: please find attached solution below.

Q: 4. A nylon [E = 360 ksi; v= 0.4] rod (1) having a diameter of dl = 2.50 in. is placed inside a steel…

Q: I was wondering in the hydrodynamics how i can determine Cp in the pressure ressistance (coefficient…

A: In the context of total resistance, the coefficient of drag (Cd) is a dimensionless quantity that…

Q: Determine the resultant. Find also the value of F and 8.

Q: Inputs: ● ● ● ● F₁ = 9 KN F₂= 2 KN 0 = 30° a = 3 m b=1m At what distance "d" must the resultant…

A: Given data, F1 = 9 KNF2 = 2 KNθ = 30°a = 3 mb = 1m To determine the distance d, for resultant R to…

Q: determine the reaction force at point O. DF 0.5 m 0.5 m 0.4 m F = 300 N B 0.3 m 0.2 m 0.1 m y

A: Given Required Reaction force at support O

Q: As shown in this figure are rigid bars supported by rods, what will be the equivalent value of P…

Q: Q2: Determine completely the resultant R of the three forces shown in the figure below. 60 kN 100 kN…

Q: Determine the resultant of the three forces shown in the figure. 我 3m 2m 2m 2m CO P=18kN A 12kN 2m…

A: Given: Required: Resultant of the three forces shown

Q: A Ay Submit x Consider the beam shown in (Figure 1). Suppose that w1 = 800 N/m and w2 = 500 N/m. Bz,…

Q: 450 N 220mm 260mm 120mm 60mm

A: Force applied on the lever AB at A, F =450NThe length of lever between A and hinge = 220mmThe…

Q: PROBLEM 1: The two bars AB and AC are used to support a cylinder of weight W = 320 kN as shown. Bar…

A: GIVEN- Weight of cylinder (w)=30knFor Bar ABE=200GpaL=4m…

Concept explainers

British Gravitational Bg System Of Units

Measuring is the comparison of a particular physical quantity with its reference value. A unit is a fixed physical quantity. The length is a physical quantity. A physical quantity is the product of a unit and the numerical value we need to compare with. 

Question

Problem 6:
Inputs:
●
●
●
●
F₁ = 600 N
F₂ = 100 N
F3 = 150 N
L₁= 0.50 m
L₂= 1.25 m
● 0 = 85°
0.1 m
0.1 m
·0
We will create an equivalent system at point O.
Technically speaking, we must replace the force and couple
system shown by an equivalent system at point O.
L₁
a) Compute the magnitude of the resultant force required
to make the equivalent system
b) What is the direction of the resultant force, relative to
horizontal (i.e. relative to the positive x-axis)?
F₂
L₂
F₁
5
c) What is the magnitude of the resultant couple moment which must be applied at point O in order to
make the equivalent system? Be sure to indicate direction with your boxed answer.
F₁

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1: Data given

VIEW

Step 2: Magnitude and direction of the resultant force relative to horizontal

VIEW

Step 3: (c) Magnitude of the resultant couple moment which must be applied at point O

VIEW

Solution

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 4 steps with 14 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, civil-engineering and related others by exploring similar questions and additional content below.

Similar questions

Given a 2-D force system with geometry as shown. Find the magnitude of the equivalent resultant force (N) if P = 315 N , Q = 587 N, and T = 460 N . Round off only on the final answer expressed in 3 decimal places.
Show complete solution and Free Body Diagrams.
X = 193 Y = 93 A = 2 B = 7 C = 9
Use x = 137 y = 37 a = 6 b = 8 c = 1 answer question 4 only
The force system shown is composed of three forces: A = 38.43 kN, B = 42.41 kN. If B = 55.82°, what should be the magnitude of force C such that the three forces are in equilibrium? Round off to two decimal places. a A В
3. The resultant of the force system shown is a vertical force which passes through point A. Determine the resultant. Find also the value of F and 0. 1.2 m DK 0.9 m 110 N-m AK 0.6m 90 N 0.9 m 450 N FR 1.2 m Ө C B
Suppose that d = 0.14 m in (Figure 1). Part A Determine the angle at which the 500-N force must act at A so that the moment of this force about point B is equal to zero. Express your answer in degrees to three significant figures. 0= Submit VE ΑΣΦ | 41 Request Answer Figure vec 1 m B ISWE ? 2 m-
Q#4. A block of 150 N is placed on the surface having coefficient of friction 0.4 (shown in figure). What force is required to just enable the block to move. Consider two cases related to force (a) Pushing force (b) Pulling force P 25° 150N
please help show step by step
Q2: Determine completely the resultant R of the three forces shown in the figure below. 60 kN 100 kN 40 kN 4m im 3m
Complete solution with free body diagram
1. Compute the value of the resultant of the concurrent forces. 300 N 100 N 60 224 45 30 400 N 200 N