Docsity
Docsity

Prepare for your exams
Prepare for your exams

Study with the several resources on Docsity


Earn points to download
Earn points to download

Earn points by helping other students or get them with a premium plan


Guidelines and tips
Guidelines and tips

Midterm Exam 1 Questions | Statics 2007 | ME 212, Exams of Statics

Material Type: Exam; Class: Statics; Subject: Mechanical and Materials Engr; University: Wright State University-Main Campus; Term: Fall 2007;

Typology: Exams

Pre 2010

Uploaded on 08/18/2009

koofers-user-9zp
koofers-user-9zp 🇺🇸

5

(1)

10 documents

1 / 2

Toggle sidebar

This page cannot be seen from the preview

Don't miss anything!

bg1
Wright State University ME 212, Fall 2007
Department of Mechanical and Materials Engineering
ME 212 STATICS: MIDTERM EXAM 1
Open Book, Closed Notes, Do not write on this sheet, Show all work
1. (15 points) Describe the vector shown in terms of its rectangular components, given
that its magnitude is 30 lb.
2. (25 points) The hook is acted on by the three forces. Determine P and the angle θ,
given that the resultant is 90i kN.
x
y
z
pf2

Partial preview of the text

Download Midterm Exam 1 Questions | Statics 2007 | ME 212 and more Exams Statics in PDF only on Docsity!

Wright State University ME 212, Fall 2007 Department of Mechanical and Materials Engineering ME 212 STATICS: MIDTERM EXAM 1 Open Book, Closed Notes, Do not write on this sheet, Show all work

  1. (15 points) Describe the vector shown in terms of its rectangular components, given that its magnitude is 30 lb.
  2. (25 points) The hook is acted on by the three forces. Determine P and the angle θ, given that the resultant is 90 i kN. x y z

Wright State University ME 212, Fall 2007 Department of Mechanical and Materials Engineering ME 212 STATICS: MIDTERM EXAM 1, CONTINUED Open Book, Closed Notes, Do not write on this sheet, Show all work

  1. (30 points) Determine the magnitude of the force F given that its moment about the axis BC is 137.3 lb-ft.
  2. (30 points) The magnitude of the tensile force F acting at point A is 160 kN. Determine the equivalent force-couple system with the force acting at point O.