Nas & Mobb Deep Beef?

December 4, 2006

Havoc and Prodigy can talk ish about Nas all they want. The Queensbridge lyricist isn’t fazed by any of it. During a recent interview on Baltimore, MD’s Power 92.1 Jamz, God’s Son responded to Mobb’s claims that he signed to Def Jam in response to the Queens duo joining the G-Unit roster. “Mobb Deep signing to G-Unit is a disgrace to hip-hop,” Nas told DJ Rosetta Devine during the interview. “I love them little brothers, but don’t speak on Nas. It doesn’t make sense. You learned from me. That’s the bottom line.

Mr. Jones then stated his position, sharing that he’s now past feuds and wishes for rap artists to unite. “What we do is a form of unity,” Nas explained. “It’s easy to sell records if I diss you. Who can sell records on love?” “It’s easy to tattoo somebody’s crew on your knuckles and act like you tough,” the lyricist continued. “But be a man, let’s see how far you get. And I believe in Mobb Deep. I believe that they will prosper even though they say negative stuff. They my little duns. Those are my little babies.”

Possibly related posts: (automatically generated)

Entry Filed under: Beef, Emcees, G-Unit, Havoc, Hip Hop, Hip Hop News, Nas, Nasir Jones, Prodigy, Rap News, Rappers, Uncategorized. .

8 Comments Add your own

  • 1. fish stick  |  May 31, 2007 at 8:57 pm

    fish stick

    ka-ka-sh-ka 2954932 fish stick info and more

  • 2. amateur sexual  |  June 7, 2007 at 6:54 pm

    amateur sexual

    ka-ka-sh-ka 2954932 Value information about amateur sexual

  • 3. QNS-D  |  June 21, 2007 at 9:06 pm

    Nas is the truth. And the Mobb’s move to Fiddy’s dick truly ain’t nothing but a disgrace to hip hop itself. P and Hav oughta be bigger than that. One.

  • 4. NasDman  |  June 24, 2007 at 2:24 pm

    Nas is the man!

  • 5. woiajwosd  |  November 3, 2007 at 3:31 am

    Well nas seems like he wants to pull down the mobb deep carrer… like I don’t like the tipical rap game stuff that is all about how far can I get from selling shit like they scared of the Industry they literally suck industry’s cock man them rapers can’t be scared of money man, they’re suposed to be the voice of the town, the voice of the people but they finally turn into the voice of theyr dying about money insides… that shit is wack I love nas I love mobb deep but them both are turning into industry biches I think is about time they hold they head high and start to rap real shit again is there a lott of realness to talk about… If those cats don’t do it is time for the next raper to step up and say the realness

  • 6. woiajwosd  |  November 7, 2007 at 6:19 pm

    Dead prez killem all yiiiih

  • 7. tuppputamadre  |  November 21, 2007 at 3:04 pm

    DISCLAIMER — THIS IS NOT AN EARTHQUAKE PREDICTION OR WARNING!
    The commentary provided with these map(s) is for INFORMATIONAL
    USE ONLY, and SHOULD NOT be construed as an earthquake prediction,
    warning, or advisory. Responsibility for such warnings rests with
    the Office of Emergency Services of the State of California.
    PLEASE REMEMBER — THESE ARE PRELIMINARY DATA
    Releasing these summaries on a timely basis requires that the
    data, analysis, and interpretations presented are PRELIMINARY. Of
    necessity they can only reflect the views of the seismologists who
    prepared them, and DO NOT carry the endorsement of the U.S.G.S.
    Thus while every effort is made to ensure that the information is
    accurate, nothing contained in this report is to be construed as
    and earthquake prediction, warning, advisory, or official policy
    statement of any kind, of the U.S. Geological Survey, or the
    U.S. Government.
    FOR QUESTIONS CONCERNING THIS REPORT
    Send e-mail to michael@andreas.wr.usgs.gov
    DO NOT SEND EMAIL TO weekly@garlock.wr.usgs.gov It will not be read.

    Seismicity Report for Northern California,
    the Nation, and the World for the week of
    July 3 – 9, 1997

    Stephen R. Walter
    U.S. Geological Survey
    345 Middlefield Rd. MS-977, Menlo Park, CA 94025

    San Francisco Bay Area

    During the seven-day period ending at midnight on Wednesday,
    July 9, 1997 the U.S. Geological Survey office in Menlo Park
    recorded 18 earthquakes of magnitude one (M1) and greater within
    the San Francisco Bay area shown in Figure 1. Three were as large
    as M2.0. This total compares to 12 earthquakes during the prior
    seven-day period (June 26 – July 2), only one of which was as
    large as M2.
    The week’s largest event was a M3.0 Wednesday morning beneath
    the town of Pleasant Hill (#5/1). The earthquake was felt in
    Pleasant Hill and Walnut Creek, though no damage was reported.
    The earthquake occurred at a depth of about 11 kilometers about
    three miles west of the Concord fault. It is only the second M3
    to occur in this area in the past 25 years. A M3.3 occurred less
    than two kilometers farther south on July 2, 1987. In both
    cases, neither earthquake generated any aftershocks.
    Other events of note include a pair of small quakes last
    Thursday on the San Gregorio fault about nine miles southwest of
    Portola Valley (#1/1), a M1.9 last Friday on the San Gregorio
    fault just west of Santa Cruz (#2/1), and a M2.3 Tuesday morning
    on the creeping San Andreas about eleven miles southeast of
    Hollister (#4/1).

    Northern & Central California

    Except for the increased activity in the Long Valley caldera,
    the week was fairly quiet. The largest event was a M3.1 on Monday
    at the Geysers geothermal area, the first M3 here since a pair
    M3’s in mid-April (#5/2). A day earlier a M3.0 occurred on the
    Mendocino fracture zone about 90 miles west of Petrolia (#4/2).
    Two small M2’s were the only other events of note in the Mendocino
    area (#2/2). Farther south in the Coast Ranges, half a dozen M1’s
    occurred in the vicinity of the Maacama fault but the only events
    as large as M2 were a pair that occurred Wednesday evening along
    the Bartlett Springs fault north of Clear Lake (#7/2).
    Central California was almost completely quiet at the M2 level;
    the only exception being a M2.1 in the southern Diablo Range four
    miles northeast of Avenal (#1/2).
    The eastern Sierra Nevada range was almost as quiet with a M2.0
    six miles southwest of Markleeville, a M2.6 12 miles northwest of
    Independence (#3/2), and a M2.0 14 miles west of Bishop (#6/2).

    Long Valley Caldera

    AFter 15 months of relative quiet, the Long Valley caldera again
    experienced an active earthquake swarm within the caldera. This
    time the swarm was concentrated along the southwest side of the
    resurgent dome about two miles northeast of Mammoth Lakes (#3/3).
    The swarm began early Monday morning with five small M2’s
    occurring over a 4-hour period. A M2.6 followed early in the
    afternoon with a pair of M2.1 later that evening and a second M2.6
    after midnight. The swarm increased in intensity late Tuesday
    morning with 20 M2’s between 10:00 and noon, the largest a M2.8 at
    11:30am. Activity continued into the afternoon with another 18
    M2′d by 3:30pm, the largest a M2.9 at 12:20 pm. Activity
    declined later in the afternoon, with only one M2 during the
    evening and a final burst of small M2’s early Wednesday morning.
    The most recent comparable swarm occurred in late March, 1996
    when over 1400 earthquakes were recorded over a 4-day period. That
    swarm, centered just south of the airport, produced 20 events that
    were as large as M3.0 including three M4’s, the largest a M4.2.
    While many of the earthquakes in 1996 were felt in Mammoth Lakes
    and into the Bishop area, only the larger events on Tuesday were
    noticed in Mammoth Lakes.

    USA Seismicity (July 1 – 9)

    According to data provided by the National Earthquake
    Information Center, the largest earthquakes in the country were a
    pair of M5’s in the Andreanof Islands of the central Aleutians
    that were both felt on the island of Adak (#1/5). Activity in the
    lower 48 states was limited to a M3.7 that was felt in the Chelan
    area of central Washington (#3/4), a M4.1 in central California
    that was felt at China Lake (#1/4), and a pair of M3.3 events
    along the southern California border (#2/4).

    The Planet Earth (July 1 – 9)

    A M6.8 beneath the northeastern coast of Venezuela on Wednesday
    afternoon left at least 36 people dead and approximately 160
    injured (#6/5). The largest quake in Venezuela in 30 years
    collapsed a high school in Cariaco, killing 22 people, and a 6-
    story office building in Cumana, killing at least eight others.
    A slightly smaller M6.5 near the coast of central Chile was widely
    felt but apparently produced no significant damage (#2/5).
    Other earthquakes of note include a M5.4 beneath the Gulf of
    Honduras that was felt along the northwest Honduran coast (#3/5),
    a M5.8 in northern Sumatera, Indonesia (#4/5), and a M5.9 in the
    volcano Islands region southeast of Japan (#5/5).

    Table 1. Northern & Central California Seismicity (M>1.0)

    –ORIGIN TIME (UT)– -LAT N– –LON W– DEPTH N N RMS ERH ERZ DUR
    YR MON DA HRMN SEC DEG MIN DEG MIN KM RD S SEC KM KM REMKS MAG

    97 JUL 3 803 13.77 37 37.95 118 52.16 9.29 20 1 .08 .3 .5 SMO 1.3
    97 JUL 3 818 50.16 39 21.57 122 52.83 9.87 25 3 .04 .2 .8 BAR 1.8
    97 JUL 3 1219 43.43 36 39.72 121 17.18 3.68 20 1 .06 .2 .5 STN 1.1
    97 JUL 3 1430 29.14 37 18.13 122 21.24 4.78 15 1 .04 .3 .6 ANN 1.6
    97 JUL 3 1442 57.33 37 25.07 121 46.40 6.59 17 2 .07 .2 .5 ALU 1.1

    97 JUL 3 1450 8.81 38 48.57 122 48.05 4.15 29 1 .04 .2 .4 GEY 1.8
    97 JUL 3 1501 59.68 35 51.81 120 24.37 4.57 23 3 .02 .2 .3 GOL 1.7
    97 JUL 3 1546 21.45 38 46.24 122 43.88 3.35 31 .07 .2 .4 GEY 2.1
    97 JUL 3 1806 49.73 37 35.61 118 36.30 22.97 8 .27 3.8 9.5 CAS 1.0
    97 JUL 3 1921 25.40 38 47.12 122 45.37 2.71 17 .02 .2 .4 GEY 1.5

    97 JUL 3 2155 10.63 38 46.17 122 43.93 2.82 16 .05 .2 .4 GEY 1.7
    97 JUL 4 115 32.38 36 2.03 120 3.73 10.76 27 .06 .3 .2 COA 2.1
    97 JUL 4 259 17.16 37 18.32 122 21.26 6.04 55 5 .09 .2 .3 ANN 2.2
    97 JUL 4 458 5.41 40 18.39 124 34.47 17.72 15 1 .16 2.2 .5 MEN 2.1
    97 JUL 4 513 7.04 39 24.43 123 30.78 2.47 8 .03 .6 1.2 PAR 1.3

    97 JUL 4 734 32.90 37 39.61 118 55.78 6.12 20 1 .09 .3 .6 SMO 1.5
    97 JUL 4 1044 11.38 36 23.98 120 58.16 0.97 28 .09 .3 .5 BIT 1.8
    97 JUL 4 1050 29.77 39 16.20 123 10.91 8.11 15 1 .04 .3 1.3 MAA 1.4
    97 JUL 4 1234 41.03 38 49.31 122 48.49 4.75 34 1 .04 .1 .3 GEY 2.1
    97 JUL 4 1310 0.85 38 49.30 122 48.20 3.74 7 .01 .5 .6 GEY 1.0

    97 JUL 4 1433 37.16 36 58.88 122 13.98 6.14 54 1 .12 .5 .7 MON 1.9
    97 JUL 4 1436 11.70 38 13.30 118 23.58 5.53 26 .06 .7 .8 MOL 2.4
    97 JUL 4 1539 47.67 37 31.09 118 51.55 5.63 15 .03 .5 .7 MOR 1.3
    97 JUL 4 1627 47.62 36 51.24 121 34.76 6.35 35 2 .07 .2 .3 SJB 1.5
    97 JUL 4 1650 6.79 39 21.62 122 52.63 9.96 21 .04 .2 .9 BAR 1.9

    97 JUL 4 1757 2.26 38 49.23 122 47.84 4.47 32 .04 .1 .3 GEY 1.9
    97 JUL 4 1820 21.67 37 28.38 118 20.95 8.96 11 2 .02 .4 1.3 CHV 1.9
    97 JUL 4 1822 36.46 37 40.61 118 57.00 0.89 7 .02 .8 .3 WMO 2.0
    97 JUL 5 114 6.34 38 46.50 122 41.90 1.48 7 .02 .6 .3 GEY 1.4
    97 JUL 5 116 42.77 38 46.44 122 42.01 1.42 7 .01 .8 .3 GEY 1.3

    97 JUL 5 158 8.72 37 13.12 121 36.80 3.98 14 1 .02 .2 .6 SFL 1.1
    97 JUL 5 1038 46.78 36 2.45 120 35.61 3.93 21 1 .06 .2 .4 SLA 1.4
    97 JUL 5 1049 56.98 37 33.93 118 49.93 5.36 7 .11 .6 1.4 MOR 1.6
    97 JUL 5 1257 22.61 37 36.61 118 58.15 6.41 7 .01 .7 1.7 SHE 1.0
    97 JUL 5 1416 3.67 37 34.32 119 24.59 5.00 8 .03 1.0 8.5 KAI – 1.6

    97 JUL 5 1656 27.90 39 46.95 123 36.41 8.05 12 1 .04 .4 .8 MAA 1.4
    97 JUL 5 1857 36.69 38 38.48 119 51.34 1.25 14 .06 1.0 3.4 WAK # 2.0
    97 JUL 5 1920 8.32 37 1.01 121 28.15 8.76 62 2 .08 .1 .3 CYS 1.7
    97 JUL 5 2108 38.79 37 3.11 121 29.27 7.03 71 2 .05 .1 .2 CYS 1.9
    97 JUL 5 2304 47.01 37 34.42 118 51.69 6.09 22 .06 .2 .4 MOR 1.9

    97 JUL 6 40 8.14 35 49.51 120 22.42 6.79 17 2 .02 .2 .6 GOL 1.3
    97 JUL 6 41 46.31 37 31.93 121 54.28 8.43 49 3 .06 .1 .3 MIS 1.5
    97 JUL 6 107 9.67 40 18.26 124 29.40 21.16 12 1 .02 .9 .4 MEN 1.9
    97 JUL 6 118 27.78 38 47.78 122 44.82 2.11 7 .01 .3 .9 GEY 1.2
    97 JUL 6 238 45.93 38 46.28 122 43.85 1.21 7 .03 .5 .6 GEY 1.3

    –ORIGIN TIME (UT)– -LAT N– –LON W– DEPTH N N RMS ERH ERZ DUR
    YR MON DA HRMN SEC DEG MIN DEG MIN KM RD S SEC KM KM REMKS MAG

    97 JUL 6 302 22.22 40 19.53 124 5.41 22.03 10 .06 .4 .5 MEN 2.0
    97 JUL 6 510 48.64 38 8.06 121 51.64 11.97 7 1 .01 1.1 1.2 JQN # 1.3
    97 JUL 6 710 55.02 37 38.84 118 48.08 7.90 7 .02 .8 1.3 EMO 1.2
    97 JUL 6 711 9.29 37 38.84 118 48.20 9.21 27 3 .04 .3 .5 EMO 1.7
    97 JUL 6 721 11.86 37 39.04 118 48.05 7.20 11 3 .02 .6 .9 EMO 1.0

    97 JUL 6 741 26.11 38 0.81 119 11.05 9.55 24 1 .12 .4 1.1 MOL 1.8
    97 JUL 6 746 7.16 37 39.02 118 48.15 9.00 12 .05 .5 1.1 EMO 1.3
    97 JUL 6 841 19.73 37 36.21 118 53.05 4.20 23 .06 .2 .3 SHE 2.1
    97 JUL 6 1132 14.69 37 23.26 121 23.58 1.65 7 .3521.929.4 HAM – 1.1
    97 JUL 6 1132 34.41 37 32.49 118 49.81 6.69 9 1 .02 1.4 1.9 MOR 1.1

    97 JUL 6 1203 20.54 37 39.00 118 56.71 5.10 9 .03 .6 1.0 SMO 1.1
    97 JUL 6 1242 26.80 37 33.32 118 45.13 6.84 7 .06 .9 2.1 WCN 1.0
    97 JUL 6 1433 38.11 37 37.42 118 57.45 1.70 8 .16 .9 .6 SMO 1.0
    97 JUL 6 1628 57.47 39 21.86 122 54.46 6.90 8 1 .02 .4 2.9 BAR 1.5
    97 JUL 6 1639 23.77 37 29.11 118 34.41 1.28 14 .40 .826.8 RVL – 1.4

    97 JUL 6 1856 24.73 39 34.11 123 24.81 7.60 8 .03 .4 1.6 MAA 1.2
    97 JUL 6 2031 16.64 36 58.02 118 15.28 16.17 10 3 .04 .8 1.3 OWV 2.6
    97 JUL 6 2126 0.94 38 36.83 122 45.98 11.23 13 .05 .4 1.3 NAP 1.4
    97 JUL 6 2126 36.38 38 36.82 122 45.92 9.82 15 1 .07 .3 1.0 NAP 1.3
    97 JUL 6 2213 28.26 38 48.67 122 48.74 3.60 18 1 .03 .2 .4 GEY 1.4

    97 JUL 6 2339 6.60 38 49.12 122 48.01 3.59 7 .01 .4 .7 GEY 1.0
    97 JUL 7 103 29.18 36 42.93 121 21.94 9.50 19 1 .05 .3 .5 STN 1.2
    97 JUL 7 247 13.40 36 14.40 120 48.45 5.85 9 1 .05 .9 .5 BIT 1.2
    97 JUL 7 256 7.76 40 28.21 125 59.58 20.32 24 1 .11 2.4 6.0 PON 3.0
    97 JUL 7 358 36.18 37 40.76 118 57.08 2.73 8 .03 .5 .6 WMO 1.1

    97 JUL 7 446 0.52 37 40.81 118 57.18 1.17 7 .02 .3 .2 WMO 1.8
    97 JUL 7 449 46.35 36 0.39 120 33.81 5.90 16 2 .04 .3 .5 SLA 1.4
    97 JUL 7 553 43.16 37 36.18 118 48.51 5.68 12 .07 .3 1.0 HCF 1.3
    97 JUL 7 751 22.56 39 44.29 123 25.10 7.06 8 .03 .4 1.1 MAA 1.2
    97 JUL 7 813 18.84 38 49.37 122 48.49 4.51 13 .02 .2 .5 GEY 1.4

    97 JUL 7 1014 5.15 36 33.14 121 7.64 8.52 32 .04 .2 .4 PIN 1.5
    97 JUL 7 1220 54.51 38 49.45 122 48.23 4.12 13 .02 .3 .6 GEY 1.4
    97 JUL 7 1244 7.04 38 55.56 122 39.22 3.29 7 .06 .5 .5 KON 1.4
    97 JUL 7 1245 16.64 37 5.26 121 49.55 4.76 27 2 .04 .2 .3 LOM 1.5
    97 JUL 7 1358 50.80 37 39.23 118 55.55 7.29 13 .04 .5 .7 SMO 1.3

    97 JUL 7 1405 11.44 37 39.32 118 55.67 4.89 7 .08 .6 .9 SMO 1.1
    97 JUL 7 1408 39.74 37 39.72 118 55.37 8.21 9 .05 2.2 2.4 DOM 1.4
    97 JUL 7 1412 16.82 37 39.22 118 55.69 5.84 12 .03 .4 .7 SMO 1.2
    97 JUL 7 1421 15.90 37 39.25 118 55.64 7.17 11 .05 .6 .8 SMO 2.0
    97 JUL 7 1443 55.86 37 39.33 118 55.65 7.23 15 2 .04 .4 .6 SMO 1.1

    97 JUL 7 1445 14.69 37 36.16 118 51.08 6.96 21 4 .06 .2 .4 SMO 1.5
    97 JUL 7 1456 25.85 37 36.26 118 51.21 6.71 14 .07 .3 .6 SMO 1.6
    97 JUL 7 1501 18.16 37 38.59 118 55.55 9.02 15 .17 .6 1.1 SMO 1.7
    97 JUL 7 1504 5.11 37 39.18 118 55.63 6.79 10 .05 .5 .9 SMO 1.2
    97 JUL 7 1509 41.42 37 39.11 118 55.63 6.39 10 .04 .4 .9 SMO 1.4

    –ORIGIN TIME (UT)– -LAT N– –LON W– DEPTH N N RMS ERH ERZ DUR
    YR MON DA HRMN SEC DEG MIN DEG MIN KM RD S SEC KM KM REMKS MAG

    97 JUL 7 1528 20.29 37 39.38 118 55.56 7.04 8 .04 1.4 1.8 SMO 1.1
    97 JUL 7 1551 49.04 37 39.32 118 55.66 6.16 11 1 .02 .6 .8 SMO 1.1
    97 JUL 7 1559 24.42 38 51.33 122 48.59 0.59 7 .02 .3 1.2 GEY 1.3
    97 JUL 7 1649 3.38 37 39.78 118 56.22 3.92 13 .03 .3 .4 SMO 1.3
    97 JUL 7 1708 15.97 37 39.32 118 55.46 6.29 11 .02 .5 .7 SMO 1.3

    97 JUL 7 1710 38.33 37 39.60 118 55.03 7.96 8 .02 1.4 1.6 DOM 1.2
    97 JUL 7 1712 5.39 37 39.39 118 55.42 7.13 8 .04 1.2 1.5 SMO 1.1
    97 JUL 7 1712 54.93 37 39.46 118 55.35 7.50 9 .03 1.0 1.1 DOM 1.1
    97 JUL 7 1716 35.10 37 39.50 118 55.60 7.53 9 .03 1.0 1.6 SMO 1.5
    97 JUL 7 1719 14.42 37 39.25 118 55.28 7.37 19 .03 .3 .4 SMO 1.8

    97 JUL 7 1725 10.70 37 36.13 118 51.10 7.07 12 .05 .3 .5 SMO 1.4
    97 JUL 7 1726 33.55 37 38.88 118 55.37 7.01 14 .05 .5 .7 SMO 1.5
    97 JUL 7 1731 44.83 37 40.05 118 56.52 9.26 8 .01 2.1 2.2 SMO 1.2
    97 JUL 7 1734 47.94 37 39.07 118 55.43 6.59 19 .06 .3 .4 SMO 1.6
    97 JUL 7 1749 27.41 37 40.89 118 55.11 10.14 10 .06 .7 1.0 DOM 1.1

    97 JUL 7 1749 43.89 37 39.70 118 55.37 7.48 8 .04 1.2 1.4 DOM 1.0
    97 JUL 7 1755 48.70 37 38.62 118 56.15 7.83 14 .10 .4 .9 SMO 2.0
    97 JUL 7 1756 17.27 37 38.43 118 55.58 3.55 9 .07 .8 1.7 SMO 1.8
    97 JUL 7 1801 48.13 37 39.27 118 55.47 7.69 7 .02 .6 1.6 SMO 1.1
    97 JUL 7 1802 33.14 37 39.24 118 55.51 7.53 12 .03 .4 .8 SMO 1.3

    97 JUL 7 1805 31.06 37 39.36 118 55.50 6.48 11 .04 .9 1.1 SMO 1.2
    97 JUL 7 1805 51.21 37 39.18 118 55.01 6.86 12 .04 .7 .7 DOM 1.4
    97 JUL 7 1806 48.03 37 38.87 118 55.53 6.50 22 .06 .3 .4 SMO 1.8
    97 JUL 7 1807 56.19 37 39.45 118 55.49 6.63 13 1 .03 .6 .6 SMO 1.6
    97 JUL 7 1813 9.26 37 39.21 118 55.51 7.07 21 2 .05 .2 .5 SMO 1.8

    97 JUL 7 1816 38.69 37 39.25 118 55.55 6.94 21 3 .05 .3 .5 SMO 1.8
    97 JUL 7 1821 49.42 37 39.27 118 55.40 7.51 7 .04 1.0 1.1 SMO 1.6
    97 JUL 7 1822 22.61 37 41.70 118 53.89 13.41 18 .28 1.5 2.3 DOM 2.2
    97 JUL 7 1827 25.92 37 39.37 118 55.49 6.86 10 .03 .5 .9 SMO 1.1
    97 JUL 7 1832 18.20 37 39.21 118 55.92 4.95 12 .07 .4 .6 SMO 1.2

    97 JUL 7 1833 43.56 37 39.17 118 55.41 6.96 22 .06 .3 .4 SMO 2.3
    97 JUL 7 1834 35.80 37 39.37 118 55.73 6.19 9 .02 .5 .9 SMO 1.1
    97 JUL 7 1835 9.87 37 39.02 118 55.63 7.31 21 .07 .3 .5 SMO 2.0
    97 JUL 7 1838 46.87 37 39.35 118 55.59 6.93 10 .04 .5 .9 SMO 1.2
    97 JUL 7 1843 1.09 37 38.82 118 55.59 5.95 13 .06 .3 .6 SMO 1.2

    97 JUL 7 1844 49.53 37 39.20 118 55.39 7.57 10 .03 .5 .8 SMO 1.2
    97 JUL 7 1847 13.77 37 39.45 118 55.72 8.12 14 .04 .6 .9 SMO 1.3
    97 JUL 7 1847 44.47 37 39.33 118 55.26 7.68 15 .04 .4 .6 DOM 1.5
    97 JUL 7 1855 2.01 37 39.59 118 55.69 8.25 9 .03 1.0 1.5 SMO 1.4
    97 JUL 7 1855 50.80 37 39.37 118 55.28 7.85 13 .04 .4 .8 DOM 1.2

    97 JUL 7 1856 2.43 37 39.37 118 55.33 7.20 13 .03 .7 .6 SMO 1.7
    97 JUL 7 1858 12.58 37 39.17 118 55.34 7.22 14 .05 .4 .7 SMO 1.3
    97 JUL 7 1859 28.60 37 39.87 118 55.64 7.33 8 .01 2.0 2.3 DOM 1.0
    97 JUL 7 1859 38.80 37 39.28 118 55.31 7.28 16 .04 .3 .7 SMO 1.3
    97 JUL 7 1905 54.75 37 39.24 118 55.35 7.19 20 .05 .3 .5 SMO 1.5

    –ORIGIN TIME (UT)– -LAT N– –LON W– DEPTH N N RMS ERH ERZ DUR
    YR MON DA HRMN SEC DEG MIN DEG MIN KM RD S SEC KM KM REMKS MAG

    97 JUL 7 1912 30.87 37 39.62 118 55.55 6.93 7 .01 1.7 1.6 SMO 1.2
    97 JUL 7 1918 32.51 37 39.00 118 55.51 6.42 15 .09 .4 .6 SMO 1.4
    97 JUL 7 1954 58.68 37 39.16 118 55.42 6.70 11 .03 .4 .8 SMO 1.0
    97 JUL 7 1955 59.99 37 39.28 118 55.31 7.56 17 .04 .3 .5 SMO 1.6
    97 JUL 7 2013 20.23 37 39.32 118 55.35 6.86 14 .04 .4 .8 SMO 1.6

    97 JUL 7 2040 32.96 37 39.01 118 55.54 6.96 24 .07 .3 .4 SMO 2.6
    97 JUL 7 2041 44.89 37 39.15 118 55.50 6.72 11 .04 .3 .8 SMO 1.4
    97 JUL 7 2047 22.21 38 48.34 122 49.29 1.80 47 1 .07 .1 .3 GEY 3.1
    97 JUL 7 2106 34.98 38 48.00 122 45.40 1.29 7 .02 .3 .9 GEY 1.4
    97 JUL 7 2133 58.22 37 39.12 118 55.35 6.75 11 1 .03 .6 .7 SMO 1.3

    97 JUL 7 2134 1.10 37 39.80 118 51.52 7.11 11 .51 1.5 3.4 DOM 1.3
    97 JUL 7 2137 30.00 37 38.37 118 56.51 2.21 11 .23 .8 1.3 SMO 1.2
    97 JUL 7 2138 43.15 37 39.65 118 54.96 7.32 7 .04 1.5 1.8 DOM 1.4
    97 JUL 7 2140 40.23 37 39.19 118 55.53 7.06 17 .06 .3 .6 SMO 1.6
    97 JUL 7 2149 20.38 38 49.33 122 48.20 3.59 8 .01 .3 .6 GEY 1.2

    97 JUL 7 2154 53.14 37 38.81 118 55.27 6.72 11 .08 .6 .6 SMO 1.2
    97 JUL 7 2213 5.38 37 39.45 118 55.39 7.34 8 .03 .9 1.5 DOM 1.0
    97 JUL 7 2226 15.03 39 28.86 123 19.38 8.37 8 1 .03 .9 1.7 MAA 1.3
    97 JUL 7 2322 32.09 37 39.57 118 55.41 7.22 10 .03 .8 1.0 DOM 1.2
    97 JUL 7 2323 37.16 37 39.29 118 55.29 7.33 16 .07 .4 .6 SMO 1.8

    97 JUL 7 2327 48.12 37 39.42 118 55.35 7.60 8 .03 1.0 1.3 DOM 1.2
    97 JUL 7 2331 51.75 37 39.59 118 55.17 7.96 12 .05 .5 .7 DOM 1.6
    97 JUL 7 2332 39.48 37 39.60 118 54.99 8.15 17 3 .03 .6 .5 DOM 1.2
    97 JUL 7 2333 31.36 37 39.63 118 55.07 8.09 14 .04 .5 .9 DOM 1.6
    97 JUL 7 2333 31.52 37 38.44 118 54.92 1.54 13 .15 .4 .3 SMO 1.7

    97 JUL 7 2337 0.59 37 39.05 118 55.65 7.34 22 .08 .3 .4 SMO 1.7
    97 JUL 7 2337 58.27 37 39.62 118 55.32 7.45 13 .04 .6 .5 DOM 1.3
    97 JUL 7 2339 24.24 37 39.94 118 55.52 8.74 8 .03 1.0 1.5 DOM 1.1
    97 JUL 7 2343 54.14 37 39.64 118 55.35 6.79 7 .01 .9 1.5 DOM 1.7
    97 JUL 7 2344 18.69 37 38.86 118 55.39 6.98 15 1 .08 .4 .6 SMO 1.1

    97 JUL 7 2344 49.10 37 39.10 118 55.53 6.53 10 .06 .7 .6 SMO 1.1
    97 JUL 7 2345 30.13 37 38.54 118 56.89 1.66 17 2 .40 1.0 1.4 SMO 1.4
    97 JUL 7 2346 2.82 37 39.48 118 55.24 7.12 9 .03 .8 1.1 DOM 1.7
    97 JUL 7 2348 0.34 37 39.69 118 55.02 8.10 16 .04 .4 .6 DOM 1.7
    97 JUL 7 2348 38.65 37 39.53 118 55.19 8.22 18 1 .05 .3 .5 DOM 1.6

    97 JUL 7 2350 14.07 37 39.66 118 55.66 8.39 8 .02 1.3 1.8 SMO 1.0
    97 JUL 7 2351 59.29 37 39.54 118 55.01 7.75 15 .04 .4 .6 DOM 1.1
    97 JUL 7 2354 40.26 37 39.05 118 55.29 6.76 11 .03 .4 .7 SMO 1.1
    97 JUL 7 2359 55.94 37 38.80 118 54.89 9.27 19 1 .06 .3 .6 SMO 1.0
    97 JUL 8 1 0.47 37 38.96 118 55.03 8.34 20 2 .07 .3 .6 SMO 1.5

    97 JUL 8 4 29.96 37 39.02 118 55.19 3.81 11 .17 .8 1.1 SMO 1.1
    97 JUL 8 12 55.39 37 39.02 118 55.28 8.22 9 .02 .5 1.1 SMO 1.3
    97 JUL 8 13 29.65 37 39.60 118 55.63 8.20 8 .02 1.2 1.5 SMO 1.0
    97 JUL 8 39 7.11 38 49.25 122 48.61 3.65 7 .01 .4 .6 GEY 1.1
    97 JUL 8 48 41.84 37 39.43 118 55.08 7.51 17 .05 .4 .5 DOM 1.4

    –ORIGIN TIME (UT)– -LAT N– –LON W– DEPTH N N RMS ERH ERZ DUR
    YR MON DA HRMN SEC DEG MIN DEG MIN KM RD S SEC KM KM REMKS MAG

    97 JUL 8 104 39.51 37 39.41 118 55.39 6.91 14 .09 .5 .6 SMO 1.4
    97 JUL 8 113 35.37 36 38.87 121 14.80 15.47 26 1 .22 .5 1.0 STN 1.3
    97 JUL 8 113 35.87 36 37.88 121 15.06 10.72 17 .03 .3 .7 STN 1.3
    97 JUL 8 223 17.64 37 38.79 118 55.68 5.61 9 .05 .9 1.5 SMO 1.3
    97 JUL 8 224 11.22 37 39.68 118 55.46 7.79 8 .03 2.2 2.7 DOM 1.1

    97 JUL 8 341 4.81 37 39.36 118 55.44 6.96 19 .06 .3 .4 SMO 1.9
    97 JUL 8 343 21.40 37 38.96 118 55.66 6.70 25 .09 .3 .4 SMO 2.1
    97 JUL 8 345 39.42 37 39.27 118 55.62 6.15 9 .02 1.0 1.5 SMO 1.0
    97 JUL 8 347 21.03 38 48.57 122 48.88 4.02 7 .01 .4 .6 GEY 1.1
    97 JUL 8 347 42.77 37 39.25 118 55.41 7.09 18 .04 .3 .5 SMO 1.7

    97 JUL 8 348 56.67 37 38.80 118 55.60 5.99 18 .11 .4 .5 SMO 1.5
    97 JUL 8 353 58.74 37 39.34 118 55.46 5.90 9 .01 .6 1.0 SMO 1.9
    97 JUL 8 538 45.95 37 6.95 119 1.85 4.94 11 .05 2.8 7.5 KAI – 1.9
    97 JUL 8 731 57.24 38 48.99 122 47.39 0.95 15 .04 .2 .3 GEY 2.1
    97 JUL 8 733 29.62 37 23.27 118 48.65 11.60 9 .05 .7 2.0 SIL 1.3

    97 JUL 8 758 49.85 37 39.62 118 54.96 8.06 13 .04 .4 .7 DOM 1.5
    97 JUL 8 759 33.02 37 39.72 118 55.36 8.22 10 .04 .8 1.1 DOM 1.1
    97 JUL 8 801 38.72 37 39.40 118 55.26 7.31 9 .04 .9 1.2 DOM 1.1
    97 JUL 8 802 2.68 37 38.98 118 55.38 6.23 13 .07 .4 .6 SMO 2.6
    97 JUL 8 804 50.14 37 39.42 118 55.38 7.28 11 1 .04 .7 .9 SMO 1.1

    97 JUL 8 819 17.38 37 39.59 118 55.02 7.72 12 .04 .4 .8 DOM 1.5
    97 JUL 8 822 40.06 37 39.40 118 55.12 8.19 18 .06 .3 .6 DOM 1.8
    97 JUL 8 823 25.96 37 39.53 118 55.09 7.93 12 2 .04 .6 .6 DOM 1.1
    97 JUL 8 925 40.28 37 23.47 118 48.62 9.96 12 .04 .5 1.4 SIL 1.4
    97 JUL 8 940 28.03 36 46.87 121 17.16 9.72 32 .04 .2 .3 PAI 1.5

    97 JUL 8 1343 13.98 37 30.53 118 51.23 6.02 17 .07 .6 .8 MOR 1.4
    97 JUL 8 1345 24.15 36 41.91 121 20.00 5.24 52 .05 .1 .3 STN 2.3
    97 JUL 8 1349 19.32 38 49.23 122 46.62 1.50 7 .02 .4 .8 GEY 1.2
    97 JUL 8 1436 48.04 38 44.26 122 24.83 5.32 8 1 .07 .6 1.5 GVL 1.3
    97 JUL 8 1518 58.41 38 48.89 122 48.60 3.56 11 .02 .3 .8 GEY 1.5

    97 JUL 8 1545 48.07 37 23.09 118 48.37 10.69 17 .05 .3 1.3 SIL 1.5
    97 JUL 8 1550 16.09 37 32.27 118 49.85 7.28 24 .06 .3 .6 MOR 1.7
    97 JUL 8 1636 51.15 37 39.22 118 55.75 7.82 20 1 .06 .3 .5 SMO 1.8
    97 JUL 8 1638 3.21 37 39.48 118 55.95 4.01 8 .08 .5 1.1 SMO 1.9
    97 JUL 8 1640 55.11 37 39.31 118 55.56 6.89 19 .04 .3 .5 SMO 1.7

    97 JUL 8 1642 44.19 37 39.44 118 55.39 7.24 11 1 .03 .4 .6 DOM 1.1
    97 JUL 8 1645 10.46 37 39.18 118 55.79 6.57 16 .06 .3 .5 SMO 1.7
    97 JUL 8 1645 35.40 37 39.01 118 55.68 5.32 25 1 .09 .2 .5 SMO 2.4
    97 JUL 8 1649 31.40 37 39.41 118 55.59 6.54 10 .04 .8 1.1 SMO 1.1
    97 JUL 8 1658 49.27 37 39.26 118 55.62 6.78 12 .04 .4 .8 SMO 1.6

    97 JUL 8 1701 48.45 37 39.41 118 55.67 7.32 10 .04 .7 .9 SMO 1.4
    97 JUL 8 1702 54.42 37 39.81 118 55.37 7.85 9 .04 2.2 2.4 DOM 1.1
    97 JUL 8 1706 30.88 37 39.34 118 55.43 7.30 19 1 .04 .3 .5 SMO 1.9
    97 JUL 8 1707 25.51 37 39.42 118 55.45 7.49 13 .05 .4 .7 SMO 1.8
    97 JUL 8 1707 50.49 37 39.24 118 55.38 7.62 10 .05 .4 .9 SMO 2.2

    –ORIGIN TIME (UT)– -LAT N– –LON W– DEPTH N N RMS ERH ERZ DUR
    YR MON DA HRMN SEC DEG MIN DEG MIN KM RD S SEC KM KM REMKS MAG

    97 JUL 8 1708 20.55 37 39.35 118 55.18 7.55 8 .03 1.1 1.0 DOM 1.7
    97 JUL 8 1708 44.17 37 39.37 118 55.68 6.67 9 .02 .8 1.5 SMO 1.0
    97 JUL 8 1714 20.76 37 39.74 118 56.60 8.56 10 2 .03 1.2 1.1 SMO 1.4
    97 JUL 8 1724 0.85 37 39.61 118 55.34 7.61 9 .03 1.1 1.3 DOM 1.0
    97 JUL 8 1725 39.02 37 39.50 118 55.37 7.87 14 .03 .5 .7 DOM 1.1

    97 JUL 8 1725 55.47 37 39.12 118 56.00 7.63 23 2 .07 .2 .5 SMO 2.1
    97 JUL 8 1728 10.03 37 39.25 118 55.54 6.72 7 .03 .8 1.2 SMO 1.4
    97 JUL 8 1729 23.91 38 47.69 122 48.37 4.69 10 .01 .3 .6 GEY 1.4
    97 JUL 8 1730 23.16 37 39.23 118 55.94 7.88 20 1 .04 .3 .5 SMO 1.6
    97 JUL 8 1730 41.78 37 39.47 118 55.51 7.66 15 2 .03 .5 .5 SMO 1.1

    97 JUL 8 1730 59.19 37 39.33 118 55.56 8.08 22 1 .04 .3 .5 SMO 1.8
    97 JUL 8 1730 59.24 37 39.24 118 55.63 7.62 22 2 .06 .3 .5 SMO 1.7
    97 JUL 8 1731 44.26 37 39.32 118 55.55 7.38 15 1 .03 .4 .5 SMO 1.2
    97 JUL 8 1731 44.30 37 39.23 118 55.61 7.11 14 1 .03 .5 .7 SMO 1.1
    97 JUL 8 1732 25.69 37 39.75 118 55.76 8.00 8 .03 1.5 2.1 SMO 1.3

    97 JUL 8 1733 21.86 37 39.56 118 55.59 7.77 9 .05 1.2 1.5 SMO 1.1
    97 JUL 8 1734 19.84 37 39.06 118 55.90 6.72 27 1 .09 .2 .3 SMO 2.1
    97 JUL 8 1735 46.40 37 39.30 118 55.34 8.61 11 .07 .5 1.4 SMO 1.8
    97 JUL 8 1739 38.30 37 38.19 118 56.01 6.70 18 1 .06 .3 .4 SMO 2.0
    97 JUL 8 1740 55.65 37 39.34 118 55.56 6.85 13 .04 .6 .8 SMO 2.5

    97 JUL 8 1741 5.84 37 39.38 118 55.58 6.81 15 1 .03 .5 .6 SMO 1.7
    97 JUL 8 1741 5.89 37 39.55 118 55.73 6.46 15 .03 .5 .7 SMO 1.6
    97 JUL 8 1743 44.47 37 39.38 118 55.41 8.48 10 .05 .5 .8 SMO 1.9
    97 JUL 8 1745 4.42 37 39.76 118 55.39 8.99 12 .08 .7 .8 DOM 1.9
    97 JUL 8 1747 51.71 37 39.51 118 55.65 8.56 9 .03 1.0 .9 SMO 1.1

    97 JUL 8 1748 5.41 37 39.55 118 55.48 7.04 16 .04 .5 .6 DOM 1.9
    97 JUL 8 1749 38.72 37 39.34 118 55.90 6.45 16 .04 .3 .5 SMO 1.5
    97 JUL 8 1750 2.95 37 39.20 118 55.55 7.14 18 .07 .3 .6 SMO 2.3
    97 JUL 8 1750 50.32 37 38.02 118 56.97 8.72 7 .04 .8 1.1 SMO 1.8
    97 JUL 8 1751 15.89 37 39.12 118 55.38 7.35 13 .06 .4 .7 SMO 1.6

    97 JUL 8 1752 24.53 37 39.36 118 55.84 6.06 7 .03 .6 1.0 SMO 1.1
    97 JUL 8 1752 39.94 37 30.07 118 51.78 7.03 19 .08 .3 .6 MOR 1.7
    97 JUL 8 1753 50.69 37 39.44 118 55.28 7.74 14 .05 .4 .7 DOM 1.8
    97 JUL 8 1755 15.56 37 41.86 118 51.07 1.19 8 .31 8.7 5.9 DOM # 2.1
    97 JUL 8 1755 22.80 37 39.38 118 55.38 8.03 10 .03 .4 1.3 SMO 1.8

    97 JUL 8 1756 42.24 37 39.43 118 55.93 8.08 7 .02 .8 1.4 SMO 1.5
    97 JUL 8 1757 59.78 37 39.42 118 55.85 6.95 11 .03 .4 .9 SMO 1.7
    97 JUL 8 1758 54.72 37 39.23 118 55.68 6.59 16 .06 .3 .6 SMO 2.5
    97 JUL 8 1759 47.89 37 39.60 118 55.20 7.93 11 .09 1.0 1.3 DOM 1.7
    97 JUL 8 1802 8.31 37 40.22 118 55.38 0.68 10 .19 1.1 .6 DOM 2.1

    97 JUL 8 1806 53.42 37 39.21 118 54.69 3.55 7 .07 1.2 1.4 DOM 1.0
    97 JUL 8 1808 14.02 37 39.21 118 55.55 6.93 24 .05 .3 .4 SMO 2.3
    97 JUL 8 1816 41.01 37 39.33 118 55.80 6.88 18 .06 .3 .5 SMO 1.9
    97 JUL 8 1818 12.03 37 38.57 118 55.60 2.83 13 .14 .4 .9 SMO 1.8
    97 JUL 8 1819 29.52 37 39.04 118 55.60 7.12 22 .11 .3 .6 SMO 2.5

    –ORIGIN TIME (UT)– -LAT N– –LON W– DEPTH N N RMS ERH ERZ DUR
    YR MON DA HRMN SEC DEG MIN DEG MIN KM RD S SEC KM KM REMKS MAG

    97 JUL 8 1821 48.91 37 38.87 118 55.34 5.15 15 .08 .3 .4 SMO 2.4
    97 JUL 8 1824 55.91 37 39.28 118 56.25 9.33 16 1 .05 .3 .7 SMO 1.6
    97 JUL 8 1827 24.93 38 49.18 122 48.49 4.46 21 .06 .2 .5 GEY 2.5
    97 JUL 8 1828 25.24 37 39.40 118 54.95 7.34 15 .05 .4 .6 DOM 1.5
    97 JUL 8 1830 59.97 37 39.08 118 55.64 6.96 29 .09 .3 .4 SMO 2.8

    97 JUL 8 1832 20.87 37 39.32 118 55.56 6.34 14 .04 .3 .6 SMO 1.6
    97 JUL 8 1833 5.66 37 41.39 118 54.99 10.82 7 .02 1.9 .9 DOM 1.4
    97 JUL 8 1834 7.21 37 23.42 118 48.70 10.66 14 .05 .4 1.3 SIL 1.5
    97 JUL 8 1834 57.57 37 39.15 118 55.48 6.75 18 .07 .3 .5 SMO 1.8
    97 JUL 8 1837 20.55 38 49.19 122 48.63 4.09 16 .03 .2 .5 GEY 2.0

    97 JUL 8 1837 39.15 37 39.17 118 55.91 5.94 16 .06 .3 .5 SMO 2.2
    97 JUL 8 1838 14.32 37 39.99 118 56.95 8.36 11 .24 1.2 1.7 SMO 1.5
    97 JUL 8 1838 25.13 37 39.26 118 55.86 7.25 20 3 .07 .3 .5 SMO 1.4
    97 JUL 8 1839 42.64 37 39.17 118 56.02 7.13 14 .05 .4 .5 SMO 1.5
    97 JUL 8 1840 46.81 37 39.59 118 55.84 6.80 11 .03 .5 .8 SMO 1.3

    97 JUL 8 1840 55.91 37 39.10 118 56.16 7.49 16 .09 .3 .7 SMO 2.4
    97 JUL 8 1842 54.97 37 39.13 118 55.91 7.12 18 .08 .3 .5 SMO 2.1
    97 JUL 8 1844 38.07 38 49.13 122 48.64 4.14 31 .04 .1 .4 GEY 2.3
    97 JUL 8 1844 51.24 37 39.23 118 55.37 7.55 16 .05 .4 .5 SMO 1.7
    97 JUL 8 1846 38.20 37 39.71 118 55.50 8.96 7 .03 1.3 1.9 DOM 2.1

    97 JUL 8 1846 43.47 37 37.82 118 55.12 10.88 12 .40 1.3 5.0 SMO 1.8
    97 JUL 8 1847 38.00 37 39.32 118 55.70 7.48 12 .04 .6 .7 SMO 1.8
    97 JUL 8 1848 37.52 37 39.33 118 55.92 6.93 9 .02 .3 .8 SMO 1.2
    97 JUL 8 1852 39.33 37 39.34 118 55.68 7.36 14 .04 .6 .6 SMO 1.5
    97 JUL 8 1854 18.72 37 39.51 118 55.91 6.65 14 .04 .3 .7 SMO 1.2

    97 JUL 8 1854 34.52 37 38.42 118 57.55 0.02 13 .49 1.0 1.0 SMO # 1.8
    97 JUL 8 1855 56.42 37 39.39 118 55.72 6.83 10 .03 .3 .7 SMO 1.2
    97 JUL 8 1858 10.46 37 39.40 118 50.61 8.20 8 .36 2.5 3.9 HCF 2.1
    97 JUL 8 1900 22.57 37 37.75 118 56.47 0.73 8 .03 .4 .5 SMO 1.1
    97 JUL 8 1902 18.82 37 39.25 118 55.99 6.47 18 .08 .3 .5 SMO 2.5

    97 JUL 8 1906 43.00 37 39.41 118 56.90 3.55 8 .11 .6 .8 SMO 1.6
    97 JUL 8 1908 34.89 37 39.24 118 56.00 6.18 12 .02 .3 .7 SMO 1.4
    97 JUL 8 1910 41.57 37 39.23 118 55.78 7.26 16 .06 .3 .6 SMO 1.7
    97 JUL 8 1913 4.92 37 39.32 118 55.88 6.78 11 .03 .4 .8 SMO 1.2
    97 JUL 8 1914 9.68 37 39.44 118 55.14 8.50 8 .01 .8 1.0 DOM 1.4

    97 JUL 8 1914 49.58 37 39.13 118 55.96 6.38 9 .03 .7 1.2 SMO 1.3
    97 JUL 8 1916 27.00 37 39.59 118 55.91 8.12 7 .03 1.9 1.8 SMO 1.1
    97 JUL 8 1916 33.16 37 39.53 118 55.15 7.93 10 .03 .7 .7 DOM 1.5
    97 JUL 8 1917 19.28 37 39.38 118 55.90 6.64 16 .05 .3 .5 SMO 1.7
    97 JUL 8 1920 15.79 37 39.21 118 55.89 7.53 20 .07 .3 .4 SMO 2.9

    97 JUL 8 1922 23.89 37 39.13 118 55.84 7.30 14 .08 .5 .7 SMO 1.5
    97 JUL 8 1922 45.09 37 39.20 118 55.66 8.15 10 .05 .5 1.0 SMO 1.3
    97 JUL 8 1924 37.68 37 39.48 118 55.85 6.26 9 .02 .9 1.3 SMO 1.0
    97 JUL 8 1926 52.93 37 38.95 118 57.36 13.14 9 .05 .7 1.6 SMO 2.0
    97 JUL 8 1930 33.87 37 39.24 118 56.02 8.14 19 3 .06 .5 .5 SMO 1.9

    –ORIGIN TIME (UT)– -LAT N– –LON W– DEPTH N N RMS ERH ERZ DUR
    YR MON DA HRMN SEC DEG MIN DEG MIN KM RD S SEC KM KM REMKS MAG

    97 JUL 8 1931 48.07 37 39.26 118 56.02 6.72 8 .05 .6 1.4 SMO 1.1
    97 JUL 8 1934 17.71 37 39.12 118 55.69 6.80 10 .05 .7 .9 SMO 1.5
    97 JUL 8 1934 59.16 37 39.23 118 55.78 6.83 13 .04 .3 .8 SMO 1.4
    97 JUL 8 1937 51.74 37 39.20 118 55.40 7.40 19 .06 .3 .5 SMO 2.2
    97 JUL 8 1939 23.50 37 41.68 118 53.83 25.42 10 .14 1.1 3.0 DOM 1.6

    97 JUL 8 1940 29.17 37 38.88 118 55.80 6.00 10 .06 .4 .7 SMO 1.2
    97 JUL 8 1941 57.12 37 39.63 118 55.17 6.58 7 .00 1.0 1.4 DOM 1.0
    97 JUL 8 1942 11.10 37 39.49 118 54.90 7.72 14 .04 .6 .7 DOM 1.4
    97 JUL 8 1942 32.48 37 39.42 118 55.95 6.82 15 .05 .3 .7 SMO 1.3
    97 JUL 8 1943 0.14 37 39.31 118 55.96 6.29 15 .06 .3 .5 SMO 1.7

    97 JUL 8 1948 54.71 37 39.24 118 55.52 6.79 13 .04 .5 .7 SMO 1.6
    97 JUL 8 1949 24.98 37 38.31 118 53.09 2.20 9 .29 .8 1.4 SMO 1.5
    97 JUL 8 1950 47.17 37 39.08 118 55.70 6.14 8 .03 1.5 2.0 SMO 1.2
    97 JUL 8 1953 20.15 37 39.20 118 55.60 6.81 9 .04 .8 1.2 SMO 1.1
    97 JUL 8 1956 42.07 37 39.33 118 55.96 6.25 19 .05 .3 .4 SMO 2.1

    97 JUL 8 2000 33.98 37 39.18 118 55.76 6.71 15 .06 .4 .6 SMO 1.7
    97 JUL 8 2001 45.71 37 38.84 118 55.50 7.41 18 .06 .3 .5 SMO 2.3
    97 JUL 8 2004 41.09 37 39.62 118 50.98 18.59 10 .11 2.1 4.4 HCF 1.3
    97 JUL 8 2005 19.77 37 38.78 118 55.71 8.64 8 .03 1.5 2.0 SMO 1.5
    97 JUL 8 2006 26.25 37 39.42 118 55.78 6.44 10 .04 .4 .7 SMO 1.3

    97 JUL 8 2006 51.63 37 39.33 118 55.39 7.66 12 .04 .4 .6 SMO 1.4
    97 JUL 8 2008 25.41 37 41.62 118 55.35 10.56 9 .05 .8 1.1 DOM 1.4
    97 JUL 8 2013 20.22 37 39.31 121 40.80 7.35 8 .05 .4 .8 HAM 1.3
    97 JUL 8 2014 3.90 37 39.13 118 55.48 7.94 13 .04 .4 .8 SMO 1.9
    97 JUL 8 2016 32.59 37 39.31 118 56.02 7.42 8 .03 1.1 1.9 SMO 1.1

    97 JUL 8 2016 57.06 37 39.37 118 55.23 8.50 13 .03 .4 1.0 DOM 1.9
    97 JUL 8 2017 33.69 37 39.41 118 55.33 7.87 14 .05 .4 .7 DOM 1.6
    97 JUL 8 2018 26.97 37 39.22 118 56.06 7.99 19 .06 .3 .5 SMO 2.0
    97 JUL 8 2020 23.67 37 39.07 118 55.75 7.19 15 .07 .4 .6 SMO 1.4
    97 JUL 8 2023 42.87 37 38.80 118 57.47 14.21 7 .08 1.0 2.3 SMO 2.2

    97 JUL 8 2025 21.27 37 39.17 118 56.11 7.47 18 .08 .4 .6 SMO 2.0
    97 JUL 8 2026 34.44 37 39.62 118 55.56 6.45 7 .02 1.0 1.6 SMO 1.3
    97 JUL 8 2027 8.24 37 39.55 118 56.99 5.77 7 .08 .7 1.3 SMO # 1.5
    97 JUL 8 2028 38.40 37 37.57 118 55.66 4.29 13 .21 .7 .9 SMO 1.4
    97 JUL 8 2031 45.70 37 38.99 118 55.85 6.52 15 .06 .4 .6 SMO 1.4

    97 JUL 8 2039 3.28 37 38.90 118 55.78 5.15 12 .03 .5 .6 SMO 1.6
    97 JUL 8 2040 52.63 37 39.32 118 56.64 4.08 13 .20 .7 1.0 SMO 1.1
    97 JUL 8 2044 22.06 37 39.13 118 55.50 7.42 11 .05 .5 .7 SMO 1.3
    97 JUL 8 2046 10.70 37 39.92 118 55.72 9.50 8 .03 1.3 2.0 DOM 1.1
    97 JUL 8 2046 36.03 37 39.36 118 55.20 7.63 11 .05 .6 .9 DOM 1.3

    97 JUL 8 2048 57.35 37 39.39 118 55.67 7.48 10 .04 .6 .9 SMO 1.4
    97 JUL 8 2051 35.41 37 39.35 118 56.10 7.66 9 .04 1.2 1.7 SMO 1.7
    97 JUL 8 2054 2.81 37 39.07 118 55.56 6.74 13 .05 .4 .7 SMO 1.5
    97 JUL 8 2101 35.69 37 39.23 118 55.58 6.59 19 .07 .3 .5 SMO 1.9
    97 JUL 8 2102 43.33 37 39.34 118 55.54 7.14 14 .05 .3 .6 SMO 1.6

    –ORIGIN TIME (UT)– -LAT N– –LON W– DEPTH N N RMS ERH ERZ DUR
    YR MON DA HRMN SEC DEG MIN DEG MIN KM RD S SEC KM KM REMKS MAG

    97 JUL 8 2109 21.58 37 39.24 118 55.42 7.00 12 .06 .3 .7 SMO 1.2
    97 JUL 8 2109 57.31 37 39.59 118 55.18 7.89 12 .06 .7 .8 DOM 1.3
    97 JUL 8 2113 46.32 37 39.44 118 55.86 7.28 15 .06 .3 .7 SMO 1.2
    97 JUL 8 2114 44.04 37 39.23 118 55.21 8.01 13 .06 .4 .8 SMO 2.0
    97 JUL 8 2117 27.24 37 39.17 118 55.94 6.31 9 .04 .7 1.2 SMO 1.0

    97 JUL 8 2125 47.71 37 39.17 118 55.91 6.37 9 .04 .7 1.2 SMO 1.0
    97 JUL 8 2129 50.48 37 38.91 118 55.83 6.44 22 .08 .3 .5 SMO 2.1
    97 JUL 8 2135 39.99 37 39.10 118 55.74 7.32 30 .09 .3 .4 SMO 3.1
    97 JUL 8 2137 25.82 37 39.49 118 55.61 7.86 10 .04 .8 1.2 SMO 1.2
    97 JUL 8 2138 26.12 37 39.29 118 55.30 8.10 16 .06 .4 .7 SMO 1.6

    97 JUL 8 2142 0.78 37 39.47 118 55.55 7.59 15 .04 .5 .7 SMO 1.4
    97 JUL 8 2143 43.13 37 34.03 118 51.37 9.85 21 .06 .3 .6 MOR 2.4
    97 JUL 8 2144 47.72 37 33.99 118 51.31 9.88 20 .05 .3 .5 MOR 1.6
    97 JUL 8 2159 45.40 37 39.22 118 55.89 6.20 15 1 .05 .4 .7 SMO 2.1
    97 JUL 8 2212 22.57 37 39.14 118 55.64 7.04 26 .08 .3 .4 SMO 2.3

    97 JUL 8 2214 22.46 37 39.48 118 55.57 7.89 11 .03 .8 1.1 SMO 1.1
    97 JUL 8 2218 30.35 37 39.37 118 55.47 7.33 11 .04 .4 .8 SMO 1.2
    97 JUL 8 2226 0.35 37 39.23 118 55.40 7.38 17 .05 .4 .5 SMO 1.7
    97 JUL 8 2229 13.99 37 39.31 118 55.64 7.47 9 .03 1.0 1.4 SMO 1.5
    97 JUL 8 2235 49.85 37 39.09 118 55.79 6.58 21 .06 .3 .4 SMO 2.2

    97 JUL 8 2249 53.99 37 39.33 118 55.59 9.49 10 .05 .5 2.3 SMO 1.2
    97 JUL 8 2252 49.36 37 39.42 118 57.56 0.28 12 .45 1.2 1.3 SMO 1.0
    97 JUL 8 2303 13.49 37 39.47 118 55.66 8.63 10 1 .03 1.3 1.2 SMO 1.2
    97 JUL 8 2308 38.39 37 39.37 118 55.47 7.47 12 .04 .4 .8 SMO 1.4
    97 JUL 8 2310 36.99 37 48.31 118 54.61 30.25 10 .17 7.4 6.8 GLA 1.7

    97 JUL 8 2349 55.81 37 39.63 118 55.37 8.50 10 .03 .7 1.0 DOM 1.6
    97 JUL 8 2351 23.84 37 39.49 118 55.41 7.79 8 .04 1.5 1.9 DOM 1.0
    97 JUL 8 2354 35.55 37 39.36 118 53.26 4.30 7 .02 .8 1.9 DOM 1.0
    97 JUL 8 2357 34.31 37 39.37 118 55.94 6.42 14 .04 .3 .7 SMO 1.3
    97 JUL 8 2358 50.82 37 39.14 118 55.24 7.08 20 .06 .3 .5 SMO 1.9

    97 JUL 9 7 30.27 38 44.32 122 24.23 1.12 7 .19 .9 5.9 GVL 1.4
    97 JUL 9 9 22.07 37 39.35 118 55.02 7.48 8 .04 .4 .7 DOM 1.3
    97 JUL 9 13 49.84 37 39.16 118 56.11 6.79 13 .05 .4 .6 SMO 1.3
    97 JUL 9 20 36.41 38 48.02 122 46.75 1.17 9 .02 .3 .4 GEY 1.8
    97 JUL 9 22 37.78 38 47.99 122 46.69 0.87 9 .02 .3 .6 GEY 1.3

    97 JUL 9 37 11.69 37 39.08 118 55.25 7.52 17 .06 .3 .5 SMO 1.4
    97 JUL 9 38 4.79 37 39.41 118 55.45 7.28 14 .04 .6 .8 SMO 1.4
    97 JUL 9 49 10.61 37 39.34 118 55.85 6.32 14 .05 .4 .5 SMO 1.3
    97 JUL 9 50 0.47 37 38.81 118 55.09 5.98 8 .02 .5 1.0 SMO 1.8
    97 JUL 9 101 2.67 37 26.86 118 22.04 7.95 7 .03 .6 1.0 CHV 1.3

    97 JUL 9 126 53.91 37 39.18 118 55.09 7.66 16 .06 .4 .6 DOM 1.5
    97 JUL 9 128 56.68 37 39.69 118 55.73 7.42 10 .05 .8 .6 SMO 1.0
    97 JUL 9 149 57.64 37 39.15 118 55.45 1.93 10 .06 .5 .2 SMO 1.7
    97 JUL 9 225 16.13 37 39.48 118 56.00 6.59 9 .03 .8 1.8 SMO 1.0
    97 JUL 9 229 47.97 37 39.47 118 55.71 7.83 10 .04 .8 1.1 SMO 1.4

    –ORIGIN TIME (UT)– -LAT N– –LON W– DEPTH N N RMS ERH ERZ DUR
    YR MON DA HRMN SEC DEG MIN DEG MIN KM RD S SEC KM KM REMKS MAG

    97 JUL 9 231 12.95 37 39.13 118 56.07 5.94 17 4 .07 .3 .7 SMO 1.1
    97 JUL 9 254 6.24 37 36.35 118 58.11 5.71 13 .04 .5 .9 SHE 1.8
    97 JUL 9 256 17.91 37 39.35 118 55.92 6.82 14 1 .04 .3 .9 SMO 1.1
    97 JUL 9 314 57.38 37 39.08 118 55.56 6.66 22 .08 .3 .5 SMO 2.1
    97 JUL 9 316 9.08 37 39.49 118 55.50 7.52 15 .04 .4 .6 SMO 1.1

    97 JUL 9 325 39.79 37 39.38 118 55.79 7.09 13 .04 .6 .9 SMO 1.1
    97 JUL 9 333 22.31 36 15.77 120 23.11 9.21 9 2 .03 .4 .5 COA 1.4
    97 JUL 9 528 39.75 37 39.39 118 55.45 7.72 15 .06 .4 .6 SMO 1.4
    97 JUL 9 551 41.46 37 39.33 118 55.97 7.03 13 .05 .6 .8 SMO 1.4
    97 JUL 9 642 16.11 37 39.28 118 55.39 7.70 14 .04 .3 .8 SMO 1.1

    97 JUL 9 744 49.06 37 38.93 118 55.80 6.47 16 .06 .3 .5 SMO 1.4
    97 JUL 9 822 28.99 37 39.23 118 55.70 6.94 14 .05 .3 .6 SMO 1.5
    97 JUL 9 906 54.27 37 14.89 118 38.06 9.21 10 .04 .8 1.4 KAI 1.9
    97 JUL 9 1033 4.22 37 39.39 118 55.81 7.34 15 .06 .4 .7 SMO 1.5
    97 JUL 9 1039 30.67 37 39.20 118 55.74 6.83 17 .07 .3 .7 SMO 1.8

    97 JUL 9 1054 5.87 37 39.46 118 55.89 7.29 14 .04 .4 .7 SMO 1.5
    97 JUL 9 1059 24.96 37 39.40 118 55.87 6.99 14 .05 .4 .7 SMO 1.4
    97 JUL 9 1059 50.63 37 39.40 118 55.89 6.99 13 .04 .5 .8 SMO 1.3
    97 JUL 9 1100 41.47 37 39.44 118 56.36 7.20 9 .03 1.2 1.6 SMO 2.1
    97 JUL 9 1101 39.28 37 39.29 118 56.03 6.80 15 .04 .3 .6 SMO 1.4

    97 JUL 9 1102 49.79 37 39.21 118 55.81 7.45 19 .05 .3 .5 SMO 1.5
    97 JUL 9 1104 32.19 37 39.32 118 55.94 6.72 11 .06 .6 .9 SMO 1.2
    97 JUL 9 1106 42.77 37 39.06 118 56.01 6.13 19 .07 .3 .5 SMO 1.9
    97 JUL 9 1107 40.91 37 42.91 118 54.14 20.79 17 .17 2.3 1.8 DOM # 2.2
    97 JUL 9 1109 6.85 37 40.02 118 57.30 9.16 9 .04 1.2 1.7 SMO 2.3

    97 JUL 9 1110 36.67 37 39.21 118 55.84 6.54 16 .06 .4 .6 SMO 1.7
    97 JUL 9 1111 0.08 37 39.21 118 56.02 6.59 10 .05 .8 1.1 SMO 1.3
    97 JUL 9 1112 0.49 37 39.30 118 55.97 6.98 10 .05 .6 .9 SMO 1.3
    97 JUL 9 1112 44.72 37 39.22 118 54.66 5.04 14 .15 .5 .9 DOM 1.6
    97 JUL 9 1113 45.98 37 39.12 118 55.89 6.75 19 1 .05 .3 .5 SMO 1.3

    97 JUL 9 1115 54.80 37 37.88 118 56.66 2.52 16 .31 1.0 1.5 SMO 2.3
    97 JUL 9 1116 20.40 37 39.19 118 55.70 7.60 8 .03 .8 1.2 SMO 1.3
    97 JUL 9 1116 47.15 37 32.56 118 57.09 10.63 10 .21 1.5 4.0 SIL 1.1
    97 JUL 9 1123 5.66 37 36.99 118 55.54 7.87 16 .48 1.5 2.8 SHE 1.9
    97 JUL 9 1125 45.23 37 35.82 118 58.54 23.17 13 .40 4.3 8.6 SIL 1.8

    97 JUL 9 1126 56.34 37 39.19 118 56.05 6.04 13 .08 .5 .7 SMO 1.4
    97 JUL 9 1132 48.18 37 39.32 118 55.92 6.92 12 .05 .6 .9 SMO 2.2
    97 JUL 9 1135 14.07 37 39.58 118 55.45 9.22 14 .13 .9 1.3 DOM 1.4
    97 JUL 9 1137 47.81 37 52.40 118 44.03 26.38 11 .2113.1 6.9 GLA – 2.0
    97 JUL 9 1138 30.13 37 39.19 118 55.99 6.87 20 1 .05 .3 .5 SMO 1.5

    97 JUL 9 1139 25.27 37 39.03 118 55.92 6.24 11 .04 .7 1.0 SMO 1.4
    97 JUL 9 1142 30.84 37 39.40 118 55.98 7.07 9 .03 .9 1.3 SMO 1.0
    97 JUL 9 1146 33.62 37 39.31 118 55.93 6.84 14 .05 .4 .7 SMO 1.6
    97 JUL 9 1158 48.84 37 39.30 118 55.97 6.95 10 .04 1.1 1.3 SMO 1.3
    97 JUL 9 1203 14.00 37 39.28 118 55.78 7.03 16 .05 .3 .7 SMO 1.6

    –ORIGIN TIME (UT)– -LAT N– –LON W– DEPTH N N RMS ERH ERZ DUR
    YR MON DA HRMN SEC DEG MIN DEG MIN KM RD S SEC KM KM REMKS MAG

    97 JUL 9 1256 17.26 37 38.92 118 56.00 7.29 7 .04 1.3 1.0 SMO 1.2
    97 JUL 9 1325 38.94 37 39.00 118 56.11 6.30 12 .03 .4 .8 SMO 1.0
    97 JUL 9 1355 38.04 37 39.38 118 55.98 6.82 14 .05 .3 .9 SMO 1.1
    97 JUL 9 1417 43.67 37 38.85 118 55.68 6.21 10 .08 .6 1.1 SMO 1.1
    97 JUL 9 1430 13.85 37 39.34 118 56.03 6.38 16 .06 .3 .4 SMO 1.3

    97 JUL 9 1446 38.14 37 39.40 118 56.01 6.53 14 .05 .3 .7 SMO 1.3
    97 JUL 9 1558 2.75 37 39.44 118 55.98 7.21 12 .06 .4 1.1 SMO 1.1
    97 JUL 9 1614 47.66 37 56.02 122 1.56 11.79 71 2 .09 .1 .3 CON 3.0
    97 JUL 9 1626 2.72 37 38.87 118 56.53 4.29 10 .08 .4 .5 SMO 1.2
    97 JUL 9 1636 26.23 37 39.52 118 55.48 7.77 10 .05 .8 .6 SMO 1.1

    97 JUL 9 1637 12.43 37 39.40 118 55.58 7.88 16 .04 .3 .5 SMO 1.5
    97 JUL 9 1714 28.36 37 40.04 118 50.11 3.70 10 .05 .5 .9 HCF 1.1
    97 JUL 9 1820 3.14 36 36.49 121 9.13 5.47 7 .04 .4 1.1 BVL 1.2
    97 JUL 9 1827 14.78 37 39.42 118 55.73 7.72 15 .04 .3 .7 SMO 1.4
    97 JUL 9 2124 16.83 38 49.07 122 48.72 3.53 7 .01 .6 .5 GEY 1.2

    97 JUL 9 2320 37.56 37 39.44 118 56.00 5.99 10 .03 .4 .6 SMO 1.1
    97 JUL 9 2330 4.04 37 19.63 118 38.96 18.05 21 .06 .4 1.3 KAI 2.0
    97 JUL 10 41 15.81 39 16.51 122 47.01 4.09 16 .05 .3 2.1 BAR 2.1
    97 JUL 10 47 30.24 37 39.34 118 55.58 6.68 14 .06 .4 .8 SMO 1.7
    97 JUL 10 49 18.58 37 39.37 118 56.18 5.81 8 .06 .5 1.0 SMO 1.0

    97 JUL 10 314 16.78 39 21.49 122 52.63 9.67 38 .12 .3 .9 BAR 2.7
    97 JUL 10 353 35.78 37 32.36 118 51.26 5.13 8 .03 .5 1.2 MOR 1.3
    97 JUL 10 410 35.03 37 31.98 118 49.76 8.00 12 .06 .5 1.4 MOR 1.2
    97 JUL 10 413 29.16 37 39.87 118 56.14 4.95 10 .14 .8 .7 SMO 1.4
    97 JUL 10 454 21.70 37 38.48 118 56.29 5.01 10 .04 .5 1.0 SMO 1.1

    97 JUL 10 633 23.18 37 31.84 118 48.46 13.07 17 .06 .5 1.0 MOR 1.3
    97 JUL 10 642 18.06 37 33.55 118 28.10 9.68 18 .06 .3 1.0 CHV 1.8
    97 JUL 10 647 21.99 37 9.95 122 3.05 12.70 10 .06 .6 1.2 BLM 1.3

    TABLE 2.
    Data from National Earthquake Information Center (NEIC)

    4
    UTC TIME LAT LONG DEP GS MAGS SD STA REGION AND COMMENTS
    HRMNSEC MB Msz USED
    ————————————————————————
    JUL 01
    034006.8 42.616N 144.524E 65D 5.1 0.8 118 HOKKAIDO, JAPAN REGION
    090725.6 29.588N 129.423E 183D 4.7 0.9 30 RYUKYU ISLANDS
    095122.5* 28.450N 143.336E 40D 3.7 1.2 12 BONIN ISLANDS REGION
    122917.3* 36.504S 52.406E 10G 4.7 4.3 1.2 13 SOUTHWEST INDIAN RIDGE
    142748.0* 42.357N 142.892E 79D 3.7 1.0 17 HOKKAIDO, JAPAN REGION
    182424.3 19.115N 121.127E 33N 4.9 0.9 36 PHILIPPINE ISLANDS REGION

    JUL 02
    072238.8* 58.280N 154.386W 33N 1.4 12 ALASKA PENINSULA
    093841.3 36.395N 3.234W 10G 4.5 4.3 1.0 50 STRAIT OF GIBRALTAR. mbLg 4.4
    095513.1 40.367N 125.333W 10G 1.0 25 OFF COAST OF NORTHERN
    CALIFORNIA. ML 3.8 (GS).
    114645.3 22.332S 66.379W 250G 4.3 1.1 14 JUJUY PROVINCE, ARGENTINA
    124050.2& 65.143N 133.811W 0G 6 NORTHERN YUKON TERRITORY,
    CANADA. ML 4.4
    125300.0? 36.03 N 3.00 W 10G 4.0 0.9 10 STRAIT OF GIBRALTAR
    135243.5 36.085N 117.637W 5G 1.0 27 CALIFORNIA-NEVADA BORDER. ML 3.2

    JUL 03
    044718.9* 3.224N 78.992W 33N 4.6 1.2 42 SOUTH OF PANAMA
    161029.9 51.408N 179.392W 33N 4.8 3.8 1.2 68 ANDREANOF ISLANDS, ALEUTIAN IS.
    174936.5 35.762N 117.612W 5G 4.0 0.9 51 CENTRAL CALIFORNIA. Mw 4.1
    Felt at China Lake.
    180713.9 51.001N 156.215E 63D 4.6 0.9 54 KAMCHATKA
    191748.7 32.208N 115.412W 5G 0.8 13 CALIF.-BAJA CALIF. BORDER
    REGION. ML 3.3 (PAS).
    202312.5 36.444N 3.236W 10 4.5 1.1 21 STRAIT OF GIBRALTAR

    JUL 04
    095403.1 58.050S 11.164W 10G 5.5 5.2 1.0 23 SOUTHWESTERN ATLANTIC OCEAN
    104538.0& 47.710N 120.010W 9 45 WASHINGTON. MD 3.7. Felt.
    110401.9 51.373N 178.622W 33N 5.2 4.4 1.0 83 ANDREANOF ISLANDS, ALEUTIAN IS.
    Felt on Adak.
    124404.2 59.480N 151.402W 55* 4.4 1.0 17 KENAI PENINSULA, ALASKA
    125639.2% 33.972S 71.096W 72? 0.2 11 NEAR COAST-CENTRAL CHILE. MD 3.3

    JUL 05
    031419.1* 15.123S 174.198W 116D 4.9 0.6 41 TONGA ISLANDS
    124236.6 32.677N 115.423W 15G 1.2 16 CALIF.-BAJA CALIF. BORDER
    REGION. ML 3.3 (PAS).
    163255.2* 22.688S 66.050W 250G 4.1 0.9 8 JUJUY PROVINCE, ARGENTINA
    183300.9 24.089S 66.980W 168* 4.5 0.8 30 SALTA PROVINCE, ARGENTINA
    224641.3 11.382S 164.725E 33N 5.5 5.0 0.7 57 SANTA CRUZ ISLANDS REGION.
    232130.5* 21.776S 179.594W 587D 4.7 0.6 30 FIJI ISLANDS REGION

    JUL 06
    013639.3 11.607N 86.894W 33N 4.8 4.5 1.0 45 NEAR COAST OF NICARAGUA
    015144.8 42.980N 131.298E 500G 4.8 0.6 55 E. RUSSIA-N.E. CHINA BORDER REG.
    095402.7 29.996S 71.672W 33N 5.7 6.5 1.0 90 NEAR COAST OF CENTRAL CHILE.
    Felt (III) at Coquimbo, La Serena, Ovalle and Vicuna.
    101604.2* 30.209S 71.705W 33N 4.7 0.7 17 NEAR COAST OF CENTRAL CHILE
    104239.3* 47.532N 27.765W 10G 4.4 0.9 25 NORTHERN MID-ATLANTIC RIDGE
    110558.6* 30.149S 71.456W 33N 4.5 0.7 14 NEAR COAST OF CENTRAL CHILE
    121751.9* 28.459N 143.186E 33N 4.7 0.6 16 BONIN ISLANDS REGION
    201337.0 16.136N 87.963W 33N 5.2 5.4 1.0 67 CARIBBEAN SEA. Mw 6.0
    Felt in the San Pedro Sulas, Honduras area.
    231520.3 30.155S 71.815W 33N 5.2 5.2 0.9 65 NEAR COAST OF CENTRAL CHILE

    JUL 07
    001724.6* 6.720N 73.039W 160D 4.5 0.7 19 NORTHERN COLOMBIA
    112437.3* 0.984N 97.568E 33N 5.4 5.8 1.0 12 NORTHERN SUMATERA, INDONESIA.
    123116.2* 30.236S 72.027W 33N 4.5 1.0 11 OFF COAST OF CENTRAL CHILE
    214246.5* 74.829N 4.084W 10G 4.7 3.9 1.0 25 GREENLAND SEA

    JUL 08
    011504.0* 29.577S 71.704W 33N 4.5 0.7 24 NEAR COAST OF CENTRAL CHILE
    022407.7 23.938N 142.678E 33N 5.9 5.7 0.8 93 VOLCANO ISLANDS REGION. Mw 5.9
    110338.1 30.582N 138.313E 425D 5.1 0.7 87 SOUTH OF HONSHU, JAPAN
    121113.6 51.334N 178.854W 33N 5.5 5.4 0.9 96 ANDREANOF ISLANDS, ALEUTIAN IS.
    Felt on Adak.

    JUL 09
    192411 Q 10.4 N 63.5 W 10G 6.8 0.9 76 NEAR COAST OF VENEZUELA

    Note: Computer users can get faster access to the Weekly Seismicity
    Reports in any of three ways:
    1. World-Wide-Web (WWW) access: http://quake.wr.usgs.gov
    2. Anonymous FTP access: quake.wr.usgs.gov
    (in pub/www/QUAKES/WEEKREPS)
    3. Email Access: (send email to michael@andreas.wr.usgs.gov)
    Notes for Table 1:
    Origin time in the list is in GMT, in the text and on maps
    it is in local time.
    N RD: is the number of readings used to locate the event.
    N S: is the number of S waves in N RD.
    RMS SEC: is the root mean squared residual misfit for the
    location is seconds, the lower the better, over 0.3
    to 0.5 seconds is getting bad, but this is machine,
    not hand timed, data.
    ERH: is the estimated horizontal error in kilometers.
    ERZ: is the estimated vertical error in kilometers.
    N FM: is the number of readings used to compute the magnitude.
    REMKS: obtuse region codes that denote the velocity model
    used to locate the event.
    DUR MAG: is the magnitude as determined from the duration of
    the seismograms, not the amplitude. Sort of like
    going to echo canyon and measuring how loud your
    yell is by counting echos.
    FIG: denotes the figure/event number in the maps posted separately.

  • 8. tuppputamadre  |  November 21, 2007 at 3:06 pm

    WASHINGTON. «Distinguido erudito en la práctica del liderazgo global». Éste es el título con el que la Universidad de Georgetown presenta al ex presidente del Gobierno español que mañana iniciará su singladura académica en Estados Unidos dentro de la reputada universidad de los jesuitas en la capital federal.

    Siguiendo el sistema de «celebridades intelectuales» por el que las universidades de élite estadounidenses ensalzan su oferta educativa y justifican sus astronómicos costes, José María Aznar se une a un selecto y bipartidista claustro donde ya figuran pesos pesados como la ex secretaria de Estado Madeleine Albright o la embajadora Jeane Kirkpatrick.

    Contrato firmado en abril

    De acuerdo al contrato formalizado el pasado mes de abril entre la Universidad de Georgetown y José María Aznar, el magisterio del ex presidente del Gobierno español se concentrará durante tres años en la política contemporánea de Europa y las relaciones transatlánticas en el marco de la Escuela Edmund A. Walsh de Servicio Exterior, donde el Príncipe de Asturias cursó sus estudios de postgrado sobre relaciones internacionales entre 1993 y 1995. El compromiso de Aznar para este curso 2004-2005 consiste en cuatro mini-periodos lectivos: del 20 al 24 de septiembre, del 8 al 12 de noviembre (si su comparecencia en la Comisión de Investigación no obliga a modificar esas fechas), del 31 de enero al 4 de febrero, y finalmente del 4 al 8 de abril.

    Georgetown, la primera universidad católica de Estados Unidos, espera poner a este «distinguido erudito en la práctica del liderazgo global» a disposición de sus estudiantes de licenciatura y postgrado pero tambien colocarlo al alcance del resto de su profesorado y cargos académicos, además de la comunidad hispano-hablante más allá de este histórico campus.

    Aunque no ha trascendido la remuneración económica de Aznar, solamente los gastos de matrícula para cursar una carrera en Georgetown ascienden a 30.000 dólares por año (unos 25.000 euros).

    De acuerdo a fuentes del Partido Popular familiarizadas con esta nueva fase universitaria dentro del currículo post-monclovita de Aznar, el ex presidente del Gobierno tiene previsto alojarse durante su estancia en Washington en un exclusivo Ritz-Carlton, a relativa poca distancia de su nuevo puesto de trabajo educativo, donde esta semana contará con la compañía de Rafael Bardají, conocido analista de cuestiones estratégicas y alto cargo de la Fundación para el Análisis y los Estudios Sociales (FAES).

    En ocasiones anteriores, y después de abandonar sus responsabilidades de gobierno, Aznar ha contado en Washington con el respaldo logístico de la Embajada española ante la Casa Blanca y medidas de seguridad especiales facilitadas por el Departamento de Estado a dignatarios extranjeros.

    Intérpretes y traducción simultánea

    Aunque el ex presidente ha intentado mejorar su muy limitado nivel de inglés durante los últimos meses, se espera que José María Aznar necesite de intérpretes y traducción simultanea para sus labores de magisterio y previsibles encuentros con altos cargos de la Administración Bush.

    El martes -justo el mismo día en que el presidente del Gobierno José Luis Rodríguez Zapatero intervendrá ante la 59ª Asamblea General de la ONU en Nueva York- Aznar tiene previsto impartir la primera de las doce clases magistrales en el histórico salón de actos conocido como Gaston Hall, acto para el que según los organizadores se han agotado las entradas ofrecidas al público.

    Dirección electrónica propia

    Como patrocinadores de esta prevista serie de conferencias figuran la oficina del rector de Georgetown y diversos departamentos de la Universidad que no ha dudado en crear una web especial para su nuevo fichaje http://president.georgetown.edu/aznar).

    El pasado 10 de septiembre, Colin Powell ocupó esa misma tribuna del Gaston Hall pronunciando una conferencia en la que empezó mencionando elogiosamente la incorporación de Aznar al claustro de Georgetown. El secretario de Estado, cuyo hijo Michael tambien cursó Derecho en ese campus, reiteró a los estudiantes que «el ex presidente de España es un hombre al que conozco bien, un hombre de gran coraje y compromiso y sé que toda la comunidad universitaria de Georgetown está agradecida al contar con él de forma regular. Como profesor visitante, vais a aprender mucho del presidente Aznar».

Leave a Comment

Required

Required, hidden

Some HTML allowed:
<a href="" title=""> <abbr title=""> <acronym title=""> <b> <blockquote cite=""> <cite> <code> <pre> <del datetime=""> <em> <i> <q cite=""> <strike> <strong>

Trackback this post  |  Subscribe to the comments via RSS Feed

Top Posts

Archives

 

December 2006
M T W T F S S
« Jul   Mar »
 123
45678910
11121314151617
18192021222324
25262728293031

2