1 / 5

Science 7 – Structures and Forces

Review: How Structures Fail: 1) Levers  strong winds cause bending which puts a larger force on one side of base, base weakens and structure can fall over! 2) Shear  Small cracks or weaknesses enlarge or break when structure is

keene
Download Presentation

Science 7 – Structures and Forces

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. Review: How Structures Fail: 1) Levers  strong winds cause bending which puts a larger force on one side of base, base weakens and structure can fall over! 2) Shear  Small cracks or weaknesses enlarge or break when structure is compressed. Ex. Weight of building can compress soil causing it to shear or slip sideways, the ground sinks and building tilts or collapses. 3) Bend or Buckle  Thin panels bend on inside of curve (like a pop can). Boat bodies are reinforced to prevent buckling. 4) Torsion  Brittle structures break when twisted (spaghetti). Flexible materials (rubber bands, hoses, cords) fold up, twist or tangle. Science 7 – Structures and Forces C A B

  2. Metal Fatigue  Weakening of metal when it is bent and twisted over and over again. (Think of paper clip activity) Designing With Forces 

  3. Using Frictional Forces  Fasteners like nails or screws provide friction between wooden parts to keep the joint rigid. Some nails provide more friction than others and screws are better yet – but take longer to put in. Pilings 

  4. Building Stable Structures  • Need to consider center of gravity – class demo • Do “Tip It!” on page 330 • Procedure 1 • a) • b) • c) • Procedure 2 • a) • b) • c) • Procedure 3 • a) • b) • Summary  • Objects are more stable if they rest on a ____________ area and have most of their mass close to the _____________. • Centre of Gravity – central point of a structure that falls in a straight line (straight down). All other points rotate around the centre of gravity. • See page 332 and page 333.

  5. Stable structures need a firm foundation! Question – What factors prevent foundations from being firm? - - How do builders construct a stable structure on shifty ground? Dig Deep  hit bedrock OR use pilings (concrete cylinders) that do down to the bedrock. Going down 1.5 meters is often deep enough for lighter buildings – past the frost line. 2) Make a solid layer pack the loose surface soil  what they do when making highways, will also use layers of gravel and pave on top of solid layer. Packed gravel foundations are also used for dams and other mass structures. Spread the Load  Footings are used where the concrete foundations at base of walls is wider than walls and using many footings or pilings rather than a few means less force on either of them. Read Ask an Expert on page 342 – 343.

More Related