While cutting a piece of paper, a person exerts the two indicated forces on a paper cutter. Reduce the two forces to an equivalentforce-couple system at corner O and then specify the coordinates of the point P in the x-y plane through which the resultant of thetwo forces passes. The cutting surface is 20" x 20".Part 121 lbQuestion 1:12"Your answer is partially correct.9"Answer: F = ( 05"There are 2 distinct questions here. We will solve the first question now.15 lb2"Replace the two forces shown by an equivalent force-couple system at point O.Find the force part of the force-couple system.i+j+117k) lbI|I

The force acting at handle i.e at B, F = 15 lbThe force acting at A, P = 21 lb

While cutting a piece of paper, a person exerts the two indicated forces on a paper cutter. Reduce the two forces to an equivalent force-couple system at corner O and then specify the coordinates of the point P in the x-y plane through which the resultant of the two forces passes. The cutting surface is 20" x 20". Part 1 21 lb 2-220 A Question 1: 12" Your answer is partially correct. 9" Answer: F = ( 0 5" There are 2 distinct questions here. We will solve the first question now. 15 lb Replace the two forces shown by an equivalent force-couple system at point O. Find the force part of the force-couple system. i+ 2" 0 j+i 117 k) lb

While cutting a piece of paper, a person exerts the two indicated forces on a paper cutter. Reduce the two forces to an equivalent force-couple system at corner O and then specify the coordinates of the point P in the x-y plane through which the resultant of the two forces passes. The cutting surface is 20" x 20". Part 1 21 lb 2-220 A Question 1: 12" Your answer is partially correct. 9" Answer: F = ( 0 5" There are 2 distinct questions here. We will solve the first question now. 15 lb Replace the two forces shown by an equivalent force-couple system at point O. Find the force part of the force-couple system. i+ 2" 0 j+i 117 k) lb

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

See similar textbooks

Related questions

Q: 2-Express each of the forces in Cartesian vector form and determine the magnitude and coordinate…

Q: Answers: Force-couple system at A. The force is positive if to the right, and the couple is positive…

Q: 3. The figure shows three forces acting on a pin-supported rectangular plate at points A, B, and C.…

A: Given: FA=55 lbθ=23° Solution: (a) The force component of force at A about x axis :…

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

A: The resultant force is 68.4 N

Q: Handwritten solution required. Don't use Artificial intelligence tools

A: Step 1:Step 2:Step 3: Hope this helps!

Q: 5. A plate is subjected to two couples as shown. Determine the magnitude of force P if the resultant…

Q: Two forces are applied as shown to the corners Band D of a rectangular plate. Given: P=108-N. 300 mm…

A: Given: Couple force P = 108 N To find: Couple moment

Q: ig.1 0.5kN 0.4kN 0.6kN 45° y B 1.2m 0.3kN 0.3m 0.9m 0.8m x

Q: Two forces F₁ and F2 act on the screw eye. If their lines of action are at an angle 9 apart and the…

A: Given-Information:- F1 = F2 = F To-Determine:- 1. Magnitude of Resultant Force FR2. Angle Between…

Q: Express the system of forces shown below as an equivalent force couple system at A. A is located at…

A: Given: The force at B in y-direction= 2.5 kN The force at D in z-direction = 0.5 kN The force at B…

Q: Problem 2 Three forces meet at a point. Use the graphical technique (vector triangle) to find the…

Q: Two forces are applied to an eye bracket as shown in Fig. 2-13a. Determine the magnitude of the…

A: As the forces are at certain angle from the axis , so there are two methods of solving this question…

Q: Please solve correctly. Handwritten solution required

A: Step 1:Step 2:

Q: Add the following forces to find the resultant force. V1 = 150 g @ 470 V2 = 550 @ 324° V3 = 350 g @…

Q: Given: three forces act on a particle P. Force A has a magnitude of 55lbs and acts 30 degrees CCW…

A: Given data

Q: he bucket of the excavator at a construction site is subjected to Fi = 1530 lb and F= 790 lb digging…

Question

While cutting a piece of paper, a person exerts the two indicated forces on a paper cutter. Reduce the two forces to an equivalent
force-couple system at corner O and then specify the coordinates of the point P in the x-y plane through which the resultant of the
two forces passes. The cutting surface is 20" x 20".
Part 1
21 lb
Question 1:
12"
Your answer is partially correct.
9"
Answer: F = ( 0
5"
There are 2 distinct questions here. We will solve the first question now.
15 lb
2"
Replace the two forces shown by an equivalent force-couple system at point O.
Find the force part of the force-couple system.
i+
j+
117
k) lb
I
|
I

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: determine the equivalent force and couple moment at O

VIEW

Solution

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 3 steps with 6 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, mechanical-engineering and related others by exploring similar questions and additional content below.

Similar questions

The following figure shows five forces act at point A. Calculate the magnitude of the resultant force, and accordingly choose the nearest answer. 90 N 75 N 60 N Ve 30° 30° 45 N 30° 30° 30 N
Q1/ A-Given F1 -5.ON 30° N of E F2-7.0N 60° S of W and F3-10.0N 40° E of S. (a) Find the components of each vector. (b) Find the vector components of the resultant force . (c) Find the magnitude and direction of the resultant force.
Three forces are applied to bracket as shown in figure below. Replace thegiven force system by a resultant force system acting at point O. Then replace theresultant force system by the simplest resultant and locate its line of action as itpasses through the y-z plane.
Three forces are applied in a plane. A reference 10 × 10 grid of this space is defined by the four points P0, P1, P2, P3 as shown in the ?figure. Lengths are expressed in m, and forces in N. Find graphically: 1. the resultant R⃗ for the system of forces. 2. the equivalent force-couple system at point P3.
Replace the three forces shown by an equivalent force-couple system at point A. If the forces are replaced by a single resultant force, determine the distance d below point A to its line of action. Answers: R = M = 280 N i 395 N d = i Force-couple system at A. The force is positive if to the right, and the couple is positive if counterclockwise. Single resultant force. 210 N 670 mm 670 mm 670 mm N N.m mm
Replace the three forces shown by an equivalent force-couple system at point A. If the forces are replaced by a single resultant force, determine the distance d below point A to its line of action. Answers: R= i M= i 160 N 290 N d = Single resultant force. i www Force-couple system at A. The force is positive if to the right, and the couple is positive if counterclockwise. 300 N 650 mm 650 mm 650 mm N N.m mm
Q1: The magnitude of force vector F is given as 160 N. 15 m B a. Represent force F in terms of its Cartesian component vectors. 18 m b. Consider axis CD. Find out a component vector of F which is parallel, and another component vector which is perpendicular to axis CD. D 25 m
Determine the resultant of the forces shown in Figure P6-13. Find the coordinates. Iy 10 kN X 'N 25 KN 15 kN FIGURE P6-13
Q.5) Three forces are applied to bracket as shown in figure below. Replace the given force system by a resultant force system acting at point O. Then replace the resultant force system by the simplest resultant and locate its line of action as it passes through the y-z plane. y 800 N -ve z 70 mm 40 mm C 40 mm 120 mm Z 245° - X 1000 N 600N 60° D E(150 mm, -50 mm, 100 mm) 110 mm B/ y 1 45° 30° X
Help!! Don’t copy last posted question
Using the ANALYTICAL method, determine the resultant of the two forces, both magnitude and direction (angle between the line of action of resultant and the x-axis).
Replace the force system shown in figure, with a single resultant force. Determine the distance where its line of action intersects the leg AB measured from point A. 3 ft 190 lb 6 ft 450 lb-ft 75 lb 4 ft 250