The Modified Mercalli Intensity Scale
The following is from the National Earthquake Information Center.
The effect of an earthquake on the Earth's
surface is called the intensity. The intensity
scale consists of a series of certain key
responses such as people awakening, movement
of furniture, damage to chimneys, and
finally - total destruction. Although numerous
intensity scales have been developed over
the last several hundred years to evaluate
the effects of earthquakes, the one currently
used in the United States is the Modified
Mercalli (MM) Intensity Scale. It was developed
in 1931 by the American seismologists
Harry Wood and Frank Neumann. This scale,
composed of 12 increasing levels of intensity
that range from imperceptible shaking to
catastrophic destruction, is designated by
Roman numerals. It does not have a mathematical
basis; instead it is an arbitrary
ranking based on observed effects.
The Modified Mercalli Intensity value
assigned to a specific site after an earthquake
has a more meaningful measure of
severity to the nonscientist than the magnitude
because intensity refers to the effects
actually experienced at that place. After
the occurrence of widely-felt earthquakes,
the Geological Survey mails questionnaires
to postmasters in the disturbed area requesting
the information so that intensity values
can be assigned. The results of this postal
canvass and information furnished by other
sources are used to assign an intensity
within the felt area. The maximum observed
intensity generally occurs near the epicenter.
The lower numbers of the intensity scale
generally deal with the manner in which the
earthquake is felt by people. The higher
numbers of the scale are based on observed
structural damage. Structural engineers
usually contribute information for assigning
intensity values of VIII or above.
The following is an abbreviated description of
the 12 levels of Modified Mercalli intensity.
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I. Not felt except by a very few under
especially favorable conditions.
-
II. Felt only by a few persons at rest,
especially on upper floors of buildings.
-
III. Felt quite noticeably by persons indoors,
especially on upper floors of buildings.
Many people do not recognize it as an
earthquake. Standing motor cars may
rock slightly. Vibrations similar to the
passing of a truck. Duration estimated.
-
IV. Felt indoors by many, outdoors by few
during the day. At night, some awakened.
Dishes, windows, doors disturbed; walls
make cracking sound. Sensation like
heavy truck striking building. Standing
motor cars rocked noticeably.
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V. Felt by nearly everyone; many awakened.
Some dishes, windows broken. Unstable
objects overturned. Pendulum clocks
may stop.
-
VI. Felt by all, many frightened. Some heavy
furniture moved; a few instances of fallen
plaster. Damage slight.
-
VII. Damage negligible in buildings of good
design and construction; slight to moderate
in well-built ordinary structures;
considerable damage in poorly built or
badly designed structures; some
chimneys broken.
-
VIII. Damage slight in specially designed
structures; considerable damage in
ordinary substantial buildings with
partial collapse. Damage great in poorly built
structures. Fall of chimneys, factory
stacks, columns, monuments, walls.
Heavy furniture overturned.
-
IX. Damage considerable in specially designed
structures; well-designed frame
structures thrown out of plumb. Damage
great in substantial buildings, with partial
collapse. Buildings shifted off foundations.
-
X. Some well-built wooden structures
destroyed; most masonry and frame
structures destroyed with foundations.
Rails bent.
-
XI. Few, if any (masonry) structures remain
standing. Bridges destroyed. Rails bent
greatly.
-
XII. Damage total. Lines of sight and level are
distorted. Objects thrown into the air.
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