1 / 33

ENGR 152: Statics Lecture #1

Professor David Martinez. ENGR 152: Statics Lecture #1. Introductions. Course Syllabus Student introductions: Name, Major, Hometown, Favorite Subject in HS, Why do you think engineers need to know statics?. WHAT IS MECHANICS?.

awen
Download Presentation

ENGR 152: Statics Lecture #1

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Professor David Martinez ENGR 152: StaticsLecture #1

  2. Introductions • Course Syllabus • Student introductions: • Name, Major, Hometown, Favorite Subject in HS, Why do you think engineers need to know statics?

  3. WHAT IS MECHANICS? • Study of what happens to a “thing” (the technical name is “BODY”) when FORCES are applied to it. • Either the body or the forcescould be large or small.

  4. BRANCHES OF MECHANICS Statics: equilibrium of bodies, bodies at rest or moving with constant velocity Dynamics: concerned with accelerated motion of bodies

  5. WHAT MAY HAPPEN IF STATICS IS NOT APPLIED PROPERLY?

  6. Summer 2008: Engineering Lowlight • The Great Sichaun Earthquake (May 12, 2008) • Magnitude 8.0 earthquake left more than 50,000 people dead

  7. Great Sichaun Earthquake • What is an 8.0 earthquake? • Richter Scale magnitude 8.0 earthquake is equivalent to 33 times the force of the atomic bomb dropped over Nagasaki during WWII • How many people is 50,000? • Los Angeles Coliseum holds 92,516 people • Imagine going to a USC football game and just under half the people in attendance are allowed to go home. I think I’ll watch the game at home!! • Would the same thing happen if Los Angeles experienced an 8.0 earthquake? • Probably not, since the Chinese earthquake occurred in rural China where buildings and structures were not built to withstand such an earthquake (and possibly built without earthquakes in mind!) • Buildings and infrastructure in the Los Angeles area have to meet strict building codes or the builders face serious fines and penalties. There will more than likely be less damage if an 8.0 earthquake hit the Los Angeles region.

  8. Summer 2007: Engineering Highlights(…and lowlights) • Space Shuttle Endeavour lifted off Cape Canaveral, FL on Aug. 8, 2007 to continue space station construction by delivering a third starboard truss segment.

  9. Summer 2007: Engineering Highlights(…and lowlights) • During take-off, foam loss from the liquid oxygen feedline brackets on the external tank during launch caused thermal tile damage to Endeavour.

  10. Summer 2007: Engineering Highlights(…and lowlights) • Space shuttle Endeavour is safe to fly home as is • Space Shuttle Endeavour glided to a perfect landing at NASA's Kennedy Space Center in Florida on August 21.

  11. Summer 2007: Engineering Lowlights • The I-35 bridge in Minneapolis, Minnesota collapses. Official death toll is 13 with over 100 injured.

  12. Summer 2007: Engineering Lowlights • U.S. highway bridges are, on average, 40 years old. The typical interstate bridge was built in the late 1960s (the I-35 bridge was finished in 1967). • Most bridges are inspected and rated every two years. • In 2005, engineers rated the I-35 bridge in Minnesota as "structurally deficient" and possibly in need of replacement. • Overall, about 20 percent of interstate bridges (nearly 12,000 bridges) were rated as deficient in one way or another in 2004.

  13. They should have taken a Statics course!!

  14. MECHANICS, UNITS, NUMERICAL CALCULATIONS & GENERAL PROCEDURE FOR ANALYSIS (Sections 1.1-1.6) Today’s Objectives: Students will be able to: a) Identify what is mechanics / statics. b) Work with two types of units. c) Round the final answer appropriately. d) Apply problem solving strategies. • In-Class activities: • Concept Review • What is Mechanics • System of Units • Numerical Calculations • Concept Challenge • Problem Solving Strategy • Attention Review

  15. Concept Review 1. The subject of mechanics deals with what happens to a body when ______ is / are applied to it. A) magnetic field B) heat C) forces D) neutrons E) lasers 2. ________________ still remains the basis of most of today’s engineering sciences. A) Newtonian Mechanics B) Relativistic Mechanics C) Greek Mechanics C) Euclidean Mechanics

  16. UNITS OF MEASUREMENT (Section 1.3) • Four fundamental physical quantities. • Length • Mass. • Time • Force: • Newton’s 2nd Law relates them: F = m * a • We use this equation to develop systems of units. • Units are arbitrary names we give to the physical quantities.

  17. IDEALIZATIONS • Particle: geometry of object not involved, size of object neglected. • Rigid Body: large number of particles remain at fixed distances away from each other before and after application of load. • Concentrated Forces: load acts on a single point on a body.

  18. Newton’s Laws of Motion • First Law: A particle originally at rest, or moving in a straight line with constant velocity, will remain in this state provided the particle in not subjected to an unbalanced force

  19. Newton’s Laws of Motion • Second Law: A particle acted upon by an unbalanced force Fexperiences an acceleration a that has the same direction as the force and a magnitude that is directly proportional to the force. If F is applied to a particle of mass m, this law may be expressed mathematically as F=ma W =mg

  20. Newton’s Laws of Motion • Third Law: The mutual forces of action and reaction between two particles are equal, opposite, and collinear.

  21. UNIT SYSTEMS • Force, mass and acceleration are called the base units. • The fourth unit, time is derived from the acceleration term. • We will work with two unit systems in statics: • International System (SI) • U.S. Customary (USCS)

  22. Table 1-1 in the textbook summarizes these unit systems.

  23. Reading Assignment for Thursday • Sections 2-1 to 2-4 (pgs. 17-37) • HW assigned on Thursday • Quizzes will start next Thursday

  24. End of the Lecture Let Learning Continue

More Related