Civil Engineering Science Concepts. Forces Static forces act on objects at rest. Compression forces shorten objects. These forces push structures. Tension.

Slides:

Advertisements

Similar presentations

Characteristics of Three Bridge Types

Advertisements

Stadium Roof Design - S2 : Stadium Roof Design - Emirates Stadium Structural Analysis.

Structural Engineering

U NIT 4 Topic 4 Forces Loads & Stresses. P ICTURING F ORCES A force diagram is a simple picture that uses arrows to show the strength and direction of.

Fundamentals for the Up-and-Coming Bridge Engineer Forces on Beams and Material Properties OSU College of Engineering Summer Institute - Robotics.

Bridge Engineering: Lessons from Rome to Tacoma

Foundations of Physics

Bridges. A bridge is an elevated structure designed to support the movement of objects over a span Bridges are made of steel and pure awesomeness.

Shear - Tensile - Compression Stresses Slip Ted 126 Spring 2007.

Structures and stress BaDI 1.

 Every bridge ever constructed had the same 4 stresses to overcome.  Tensile Stress- Forces that try to stretch material and pull it apart.  Compression-

MEGA STRUCTURES BRIDGES

Chapter 6 Designing Structural Systems. Terminology Structure – a body that will resist external forces without changing its shape, except for that due.

WORKSHEET 2 FAILURE, STRESS AND STRAIN

10-2: Friction, Gravity, & Elastic Forces

Critical Thinking in Engineering Process

Bridges Vocabulary. Bridge  A structure used to help people cross valleys, rivers and bodies of water.

Bridging the Gap: Building Bridges 101, It Is Time to Get To Work

 Part One: Material Properties  Part Two: Forces and Torque  Assessment.

Concept Summary Batesville High School Science. Crystals  Crystals are regular geometrical arrangements of atoms.  Most metals have a regular crystalline.

Basic Structural Theory. BASIC STRUCTURAL THEORY TECHNICAL STANDARDS BRANCH INTRODUCTION TO BRIDGES TRANSPORTATION Slide 2 Beams Different member types.

Forces & Motion Notes Lesson 2: The Force of Gravity

Section 19.1 Forces Within Earth

A push or a pull on an object is called a force.

Types of Forces.

Bridges Introduction to design.

Structural Engineering

How Bridges Respond to Loads

Stress-the amount of force per unit area on a given material Deformation-the process by which the shape of a rock changes because of stress Compression-when.

Guided Notes for Forces Within Earth

Prism compressive strength f cp The compressive strength of 150×150×300mm prism, cured in standard condition, 28 days. The relation of prism compressive.

Forces on Bridges How are bridges designed to withstand the forces that act on them?

BRIDGES Beauty and Function.  The first bridges were nature-made: trees that fell across creeks or rivers.  The first man-made bridges were most likely.

Engineering I – Statics. Test the Strength of Structural Members To design a structure, an engineer must be able to determine the strengths of the structural.

Types of bridges 1 or Truss bridge 2 3.

 How can math help me understand my world?  What factors influence bridge strength?

Civil Engineering Science Concepts. Forces Static forces act on objects at rest. Compression forces shorten objects. These forces push structures. Tension.

Fluids and Dynamics Unit 3 Science 8 Tannant. Chapter 8 Fluids are Affected by Forces, Pressure, and Heat.

Forces. I. Section 1 A. Newton- (N) the SI unit for the magnitude of a force. Also called weight. B. Force- a push or a pull. Described by its magnitude.

University of Sydney – BDes Design Studies 1A - Structures Modes of Failure Mike Rosenman 2000 Modes of Failure solids held together by bonds between their.

Structures What things do I need to find out in order to predict if what I design will stand up to the use I intend to put it through?

Beams AHL Topic 9: Structures. Beam Beams are structural members that are subject to loads acting normally to their longitudinal axis. The loads create.

Structural Elements.

Technical Standards Branch Class B Bridge Inspection Course BIM Bridge Inspection and Maintenance Basic Structural Considerations INFRASTRUCTURE AND TRANSPORTATION.

Types of Bridges Images Forces Acting on Bridges

Troop 8 Truss Presentation. What are Trusses? A truss is a type of framework, usually comprising straight struts and ties, which is designed to be stiff.

Bridge Structures.

Introduction Bridge members must be able to carry the loads applied to them. This presentation considers: how loads are applied to members how bridge.

Welcome Back to Design LAB! Today’s Agenda: Understand Bridge Types

GOVERMENT ENGINEERING COLLEGE BHUJ (CIVIL ENGINEERING)

By: Mohamed Ahmed, EIT Clark dietz, inc

Principles of Architecture & Construction

Direct and Bending Stresses

A push or a pull on an object is called a force.

Bridge design project Quentin Rahimi Period 5.

Science You will need your science duo-tang and pencil case for today’s science class.

Fundamentals for the Up-and-Coming Bridge Engineer

Gravity and Friction Vocabulary

Bridge Engineering: Lessons from Rome to Tacoma

How to Handle the Stress part 1

Bridge Construction Mr. Banks.

Chapter 12: Solids © 2015 Pearson Education, Inc..

Ms.Jocelyn Buenconsejo Physics Teacher

What is the key purpose of a roof?

Friction, Gravity, and Elastic Forces

Learning Target 3 Students will identify and describe the types of forces acting on an object, including: Frictional force Gravitational force Tension.

Forging new generations of engineers

Engineering Technology Program

BRIDGE PROJECT Hunter fuller Period 5.

Presentation transcript:

Civil Engineering Science Concepts

Forces Static forces act on objects at rest. Compression forces shorten objects. These forces push structures. Tension forces pull objects. These forces lengthen objects.

Forces If a spring rests on a surface and weight is placed on top of the spring, it is compressed. This is an example of a compression force.

Forces If the spring is suspended in the air, like the spring of a grocery store produce scale, and weight is applied to the end of the spring, it is stretched. This is a tension force.

Forces The forces acting on a structure should be balanced.

Forces Demonstration If one person holds the ends of a slinky in each hand and stretches the slinky, a small number of coils will be evenly spaced in the middle. This section of stretched coils illustrates a beam.

Forces Demonstration If a second person applies a small amount of force on top of the stretched section of the slinky with their hand, the tops of the coils move closer together while the bottoms of the coils move further apart.

Forces Demonstration The top is under compression. The bottom is under tension. Notice the centerline of the coils. This area remains basically the same.

Properties of Materials Strength Durability Flexibility

Properties of Materials Tensile Strength ◦The amount of tension stress a material can withstand before failing. Compressive Strength ◦The amount of compression a material can withstand before failing.

Properties of Materials Durability ◦How long can a material last? Concrete and steel are very durable. Flexibility ◦Can a material bend and flex with stress? In certain designs this property could be important.