EQ L5: Engineering for Survival

Question 1

Magnitude of 1995 Kobe, Japan earthquake? Cost of damage and lives?

Answer 1

Mw = 7.2, $2.7 billion, 6 425 lives.

Question 2

Magnitude, damage, lives cost of 1964 Good Friday earthquake? Where did it occur?

Answer 2

Mw = 9.2 (2nd biggest earthquake on record), $300-400 million, cost 116 lives in Alaska.

Question 3

When in 2002 a pair of ‘quakes hit Alaska, why was the pipeline not damaged?

Answer 3

Because of its engineering design. The fault was already known to exist, so the pipeline was mounted on rails parallel to the fault. When earthquake occurred, the earth moved the rails under the pipeline ~2.5 m but didn’t damage the pipeline.

Question 4

How does ground motion break a structure?

Answer 4

By applying a force to it. Moving ground causes structure to accelerate.

Question 5

Structures are built to withstand acceleration in the ______ direction.

Answer 5

vertical (they withstand acceleration of gravity. small deviations from that value

Question 6

For structures, why does a change in horizontal acceleration represent a significant change from normal?

Answer 6

Structures aren’t built to withstand horizontal acceleration. Normally they don’t experience any at all.

Question 7

Which of these waves cause the most significant side-to-side motion at surfaces?

Answer 7

Rayleigh and Love waves.

Question 8

Which waves cause most damage?

Answer 8

Waves with the largest amplitude of motion. Rayleigh and Love waves.

Question 9

Magnitude vs. Intensity?

Answer 9

The amount of energy at the source describes the magnitude (wattage of the light bulb), whereas the experience felt as a result of that energy is the “felt intensity” (amount of light at the place it is used).

(i.e. magnitude is fixed, intensity is local)

Question 10

Factor that influence intensity?

Answer 10

1. Earthquake magnitude.
2. Duration of shaking. Longer shaking causes more damage.
3. Distance to/depth of epicentre/hypocentre. Closer to there, more likely for larger intensity.
4. Ground type. Harder rocks are stiffer, generally experience smaller motions. Softer rocks in the same location are likely to experience larger motions. Higher frequencies tend to decay faster in softer rocks.
5. Building characteristics. Stronger buildings suffer less than poorly constructed ones. Another important factor is resonance. Buildings have resonant frequency. If building is made to shake at exactly its resonant frequency, motion will increase rapidly, causing it to break faster than if not moving at a rate close to its resonant frequency.

Question 11

Larger earthquakes have higher capacity to be catastrophic. However, this is only true if…

Answer 11

they occur near human activity.

Question 12

Where in Vancouver area are rocks hard? Where soft?

Answer 12

Think in terms of rock and mountainous regions vs. regions that are flat and filled with recent river sediments.

Question 13

What is dynamic compaction?

Answer 13

Blasting and dropping large weights. Causes soil layers to settle and become dense. Dense layers will not flow when the Earth shakes.

Question 14

What general approaches to making buildings better able to withstand side-to-side stresses?

Answer 14

1. Static methods (make it stronger) with cross brace, shear wall, shear core. Avoid soft storeys (weak bottom floor)
2. Dynamic “active” methods:
   - absorb energy (damping); uses springs and shock absorbers/dampers
   - add mass (change resonance); adding mass at correct location within building so it will not be shaken to pieces when the expected ground motion occurs
   - isolate the building from ground; allowing earth to move w/o dragging the structure with it. (this method isolates the Trans Alaska pipeline)

Question 15

What are some aspects engineers must consider in employing good general construction practices?

Answer 15

Firmly attach cosmetic brick facing to buildings so they don’t fall off during shaking.

Use reinforced concrete properly. (i.e. not have weak at the joins.)

Use of shear wall. (gives it side-to-side strength)

Hillsides can be dangerous especially if they slip when shaken.

Question 16

How do we characterize other contributors to catastrophe?

Answer 16

Destruction of Infrastructure, liquefaction of soils

Question 17

What may occur when an urban setting is badly shaken?

Answer 17

Possibility of dangerous fires due to broken gas lines, open flames moved around in kitchens, workshops, etc.

Question 18

The extent of the catastrophe will always be increased when important services are _____.

Answer 18

interrupted.

Question 19

If infrastructure and utilities such as communications (telephone, Internet), utilities (water, electricity), and transport (roads, vehicles, airports, etc) can be “hardened” (i.e., made more resistant to ground motion), the risk of living in earthquake prone regions will be significantly ____.

Answer 19

reduced.

Question 20

What does liquefaction mean?

Answer 20

If soft materials (sand or soils) are saturated (full of water) and they are shaken, it’s possible for the particles of the material to get shaken apart within the fluid (water) and thus lose their strength. Causes structures to sink/ material to slump.

Question 21

How many people live on the Fraser River Delta? What kind of economy does it hold?

Answer 21

250 000 people. region with most of the recent population.

$74M/year farming industry, expanding industrial capacity, the Vancouver International Airport, the busiest ferry terminal in the world, the largest shipping facility in Canada, a $260M/year fishery, and a submarine hydroelectric cable corridor which supplies power to Vancouver Island and the capital city of the province.

Question 22

What non-natural factors can cause earthquakes?

Answer 22

dam-building, valley flooding, injecting liquid waste deep into the ground, detonating underground explosions

Question 23

How to maintain safety before earthquake?

Answer 23

make house secure, keep home safe (learn how to shut off gas, electricity, water, keep flammable and hazardous liquids away from the house), identify safe spots, prepare earthquake kit

Question 24

How to maintain safety during an earthquake?

Answer 24

Stay calm: DON’T PANIC

Get out of areas where flying objects could cause injury (for example the kitchen, study/library, areas with glass windows)

Stay under strong tables or desks (remember: Duck, Cover, Hold)

Failing that, stand under archways or the inside corner of a room

Avoid doorways!
Do not move until the shaking stops

Question 25

How to maintain safety after an earthquake?

Answer 25

Deep breaths!

Help the injured (or get help)

Get out of damaged buildings

Do not use the phone if possible
Be prepared to survive on your own; Help might not be available for at least 3 (or more) days
{Find food, water, supplies, equipment to help the injured}

Fill a bathtub with water as your reserve

Use other sources of water: water heaters, melted ice cubes, the toilet tank

Question 26

Earthquakes do not kill. What does, instead?

Answer 26

Inadequate preparation for earthquakes kills thousands worldwide per year. Fortunately, for all of us, proven scientific and engineering principles can minimize damage and destruction. The effort and commitment to apply these principles must be employed at all levels: the individual, community, national, and global levels.