VOLCANOOOOOOES

Question 1

study of volcanoes, its materials, and processes

Answer 1

VOLCANOLOGY :>

Question 2

PERSON who engages in study of volcanology

Answer 2

VOLCANOLOGIST :>

Question 3

NATURALLY OCCURING LANDFORM produced where lava erupts onto earth’s surface

Answer 3

VOLCANO :>

Question 4

T or F: magma is HEAVIER than the solid rock around it

Answer 4

FALSE. it is LIGHTER

Question 5

why do volcanoes erupt?

Answer 5

DECOMPRESSION :>

Question 6

highly volcanically and seismically active, having about 75% or around 450 volcanoes located in it, and where 90% of earthquakes occur

Answer 6

PACIFIC RING OF FIRE :>

Question 7

other name of PACIFIC RING OF FIRE

Answer 7

PACIFIC RIM :>

Question 8

SURFACE MANIFESTATION of hot mantle plumes rising from the mantle, believed to originate from the boundary of mantle and outer core

Answer 8

HOTSPOTS :>

Question 9

where do volcanoes erupt?

Answer 9

PACIFIC RING OF FIRE, HOTSPOTS, SPREADING CENTERS :>

Question 10

LARGE EXPANSE OF AREA which resulted from voluminous outflow of basaltic lava, can last up to mil. of years

Answer 10

FLOOD BASALTS :>

Question 11

according to Courtillot of 2003, there are THREE HOTSPOT CLASSIFICATIONS. what are they?

Answer 11

CORE-MANTLE BOUNDARY origin
UPPER MANTLE origin
LITHOSPHERIC origin :>

Question 12

REGIONS where divergent plate boundaries spread and produce juvenile magma material, creating submarine volcanoes

Answer 12

SPREADING CENTERS :>

Question 13

ANATOMY OF A VOLCANO

FUNNEL-SHAPED depression found at the summit of a volcano

Answer 13

CRATER :>

Question 14

ANATOMY OF A VOLCANO

PIPE OR CIRCULAR PIPE where magma movement is localized

Answer 14

CONDUIT :>

Question 15

ANATOMY OF A VOLCANO

OPENING on a volcano where a conduit or a pipe terminates

Answer 15

VENT :>

Question 16

ANATOMY OF A VOLCANO

large UNDERGROUND REGION OF MAGMA that supplies a volcano

Answer 16

MAGMA CHAMBER :>

Question 17

ANATOMY OF A VOLCANO

small CONE-SHAPED VOLCANO FORMED FROM FLANK ERUPTION from the main volcano

Answer 17

PARASITIC CONE :>

Question 18

classification of volcanoes according to the SHAPE of a volcano

Answer 18

MORPHOLOGY :>

Question 19

classification of volcanoes according to the ERUPTIVE HISTORY of a volcano

Answer 19

ACTIVITY AND HISTORY :>

Question 20

LOCAL classifier according to the eruptive history of a volcano

Answer 20

PHIVOLCS :>

Question 21

INTERNATIONAL classifier according to the eruptive history of a volcano

Answer 21

USGS :>

Question 22

produced by accumulation of fluid basaltic lavas, resembling a WARRIOR’S SHIELD, 15 degree slope or less

Answer 22

SHIELD VOLCANO :>

Question 23

built from interlayered tephra and lava flows, considered as MOST DANGEROUS AND ERUPTIVE, 10 to 30 degree slope

Answer 23

STRATOVOLCANO :>

Question 24

other name for STRATOVOLCANO

Answer 24

COMPOSITE VOLCANO :>

Question 25

composed of loose ejected ash, appearing relatively symmetrical and steeply built, LARGE DEEP CRATERS

Answer 25

PYROCLASTIC CONES :>

Question 26

PYROCLASTIC CONE

composed of VESICULAR, BASALTIC MATERIAL

Answer 26

SCORIA CONES :>

Question 27

PYROCLASTIC CONE

composed of VARIOUS COMPOSITIONS

Answer 27

CINDER CONES :>

Question 28

a cinder cone volcano in Mexico, the only volcano studied from its birth up until its death

Answer 28

PARICUTIN VOLCANO, MEXICO :>

Question 29

an example of shield volcano in Hawaii and considered as the highest volcano from base to peak

Answer 29

MAUNA KEA :>

Question 30

best example of stratovolcano in the Philippines

Answer 30

MAYON :>

Question 31

volcanoes that had an ERUPTIVE HISTORY that reached VEI 8

Answer 31

SUPERVOLCANO :>

Question 32

LARGE DEPRESSION, typically caused by collapse of the summit area of a volcano due to depletion of magma chamber after a violent eruption

Answer 32

CALDERA :>

Question 33

best example of a CALDERA and a SUPERVOLCANO as one volcano

Answer 33

YELLOWSTONE SUPERVOLCANO, Wyoming, USA :>

Question 34

classification of volcanoes and its activity and history according to PHIVOLCS

Answer 34

ACTIVE volcano
POTENTIALLY ACTIVE volcano
INACTIVE volcano :>

Question 35

CLASSIFICATIONS OF VOLCANOES AND ITS ACTIVITY AND HISTORY ACCORDING TO PHIVOLCS

had a recorded ERUPTION FOR THE PAST 600 YEARS, has datable material since 10,000 years ago

Answer 35

ACTIVE VOLCANO :>

Question 36

CLASSIFICATIONS OF VOLCANOES AND ITS ACTIVITY AND HISTORY ACCORDING TO PHIVOLCS

geomorphologically young volcano currently not erupting but supposed to erupt again

Answer 36

POTENTIALLY ACTIVE VOLCANO :>

Question 37

CLASSIFICATIONS OF VOLCANOES AND ITS ACTIVITY AND HISTORY ACCORDING TO PHIVOLCS

has not had an eruption for at least 10,000 years, not expected to erupt again in the future

Answer 37

INACTIVE VOLCANO :>

Question 38

best example of an ACTIVE VOLCANO in the Philippines

Answer 38

MAYON :>

Question 39

best example of an POTENTIALLY ACTIVE VOLCANO in the Philippines

Answer 39

MT. SAN CRISTOBAL, LAGUNA :>

Question 40

best example of an INACTIVE VOLCANO in the Philippines

Answer 40

ALLIGATOR LAKE (TADLAC LAKE), LAGUNA :>

Question 41

classification of volcanoes and its activity and history according to USGS

Answer 41

ACTIVE volcano
DORMANT volcano
EXTINCT volcano :>

Question 42

CLASSIFICATIONS OF VOLCANOES AND ITS ACTIVITY AND HISTORY ACCORDING TO USGS

at least one eruption from the past 10,000 years

Answer 42

ACTIVE VOLCANO :>

Question 43

CLASSIFICATIONS OF VOLCANOES AND ITS ACTIVITY AND HISTORY ACCORDING TO USGS

no historically recorded eruption or no eruption for thousands of year but likely to erupt

Answer 43

DORMANT VOLCANO :>

Question 44

CLASSIFICATIONS OF VOLCANOES AND ITS ACTIVITY AND HISTORY ACCORDING TO USGS

not erupted within recorded history and not likely to erupt again, showing no volcanic activity

Answer 44

EXTINCT VOLCANO :>

Question 45

example of an ACTIVE VOLCANO in the world

Answer 45

AGUNG VOLCANO, INDONESIA :>

Question 46

example of a DORMANT VOLCANO in the world

Answer 46

MT. KILIMANJARO, TANZANIA :>

Question 47

example of an INACTIVE VOLCANO in the world and considered as the FARTHEST peak from the core

Answer 47

MT. CHIMBORAZO, ECUADOR :>

Question 48

SYSTEMATIC CLASSIFICATION of volcanic eruptions based on observations during an eruption, or simply VEI

Answer 48

VOLCANO EXPLOSIVITY INDEX :>

Question 49

a QUIET eruption type according to ERUPTIVENESS

Answer 49

EFFUSIVE :>

Question 50

a LOUD eruption type according to ERUPTIVENESS

Answer 50

EXPLOSIVE :>

Question 51

a MAGMA-DRIVEN eruption type according to MECHANISM

Answer 51

MAGMATIC :>

Question 52

a STEAM-DRIVEN eruption type according to MECHANISM

Answer 52

PHREATIC :>

Question 53

a COMBINATION eruption type according to MECHANISM

Answer 53

PHREATOMAGMATIC :>

Question 54

an eruption style that is effusive, quiet, produces large volumes of thin, runny lava and extrudes via FISSURES

Answer 54

ICELANDIC :>

Question 55

best example of ICELANDIC eruption style

Answer 55

2021 FAGRADALSFJALL ERUPTION :>

Question 56

an eruption style that is effusive, quiet, produces large volumes of thin, runny lava and extrudes via VENTS

Answer 56

HAWAIIAN :>

Question 57

best example of HAWAIIAN eruption style

Answer 57

2018 KILAUEA ERUPTION :>

Question 58

an explosive eruption style that SHOOT thicker lava along with burst of steam, gas, and ash

Answer 58

STROMBOLIAN :>

Question 59

an eruption style that are series of discreet, loud eruptions, “THROAT-CLEARING” CANON-LIKE EXPLOSIONS that shoot high velocity blocks and bombs

Answer 59

VULCANIAN :>

Question 60

an eruption style that occur when large amount of tephra, gas, and lava are erupted laterally from the crater, producing “GLOWING” avalanches

Answer 60

PELEAN :>

Question 61

best example of a PELEAN eruption style

Answer 61

1984 MAYON VOLCANO :>

Question 62

other name for PELEAN eruption style

Answer 62

NUÉE ARDENTE :>

Question 63

an eruption style that involves very viscous magma and produce VERY LARGE VOLUMES OF ASH AND TEPHRA that covers a very wide area

Answer 63

PLINIAN :>

Question 64

best example of a PLINIAN eruption style

Answer 64

1991 PINATUBO ERUPTION :>

Question 65

an eruption style that occurs when WATER IS HEATED WITHOUT ANY CONTACT with magma, erupts as mixture of hot water and steam

Answer 65

PHREATIC :>

Question 66

best example of PHREATIC eruption style

Answer 66

2020 TAAL ERUPTION :>

Question 67

an explosive eruption style that occur when WATER INTERACTS WITH MAGMA and violently bursts into steam and volumes of ash

Answer 67

PHREATOMAGMATIC :>

Question 68

best example of PHREATOMAGMATIC eruption style

Answer 68

2018 ANAK KRAKATAU ERUPTION :>

Question 69

other name for PHREATOMAGMATIC eruption style

Answer 69

SURTSEYAN :>

Question 70

VOLCANIC PRODUCT

STREAMS OF LAVA pouring from a fissure or vent during an eruption

Answer 70

LAVA FLOW :>

Question 71

LAVA FLOW

characterized by its ROUGH, JAGGED SURFACE often associated with fluid basaltic flows

Answer 71

‘A’a FLOW :>

Question 72

LAVA FLOW

form RELATIVELY SMOOTH SURFACES that often resemble twisted ropes and often products of basaltic flows

Answer 72

PAHOEHOE FLOW :>

Question 73

LAVA FLOW

SHORT, DETACHED, VESICLE-FREE, PROXIMAL lava, often produced by viscous lava such as andesitic and rhyolitic

Answer 73

BLOCK LAVA :>

Question 74

LAVA FLOW

formed as structures composed of NUMEROUS SMOOTH, TUBE-LIKE PROTUBERANCES that are good indicators for surrounding as they form underwater

Answer 74

PILLOW LAVA :>

Question 75

VOLCANIC PRODUCT

VOLCANIC MATERIALS OF VARYING SIZES produced from volcanic eruptions

Answer 75

PYROCLASTIC MATERIALS :>

Question 76

pyroclastic material EJECTED into the ATMOSPHERE

Answer 76

TEPHRA :>

Question 77

PYROCLASTIC MATERIAL

SOLID EJECTA with sizes greater than 64mm

Answer 77

BLOCK :>

Question 78

PYROCLASTIC MATERIAL

ejected into the atmosphere, related to breadcrust texture

Answer 78

BOMB :>

Question 79

PYROCLASTIC MATERIAL

FRACTURED SURFACE TEXTURE formed when bombs cool

Answer 79

BREADCRUST TEXTURE :>

Question 80

PYROCLASTIC MATERIAL

ROCK FRAGMENTS with grain sizes ranging from 2-64mm, from droplets of lava

Answer 80

LAPILLI :>

Question 81

PYROCLASTIC MATERIAL

tephra that is usually GLASS, grain sizes LESS THAN 2MM

Answer 81

ASH :>

Question 82

PYROCLASTIC MATERIAL

lapilli-sized pyroclastic deposits formed DUE TO SATURATION FROM WATER or ACCLAP

Answer 82

ACCRETIONARY LAPILLI :>

Question 83

GLASS

GOLDEN, ACICULAR, GLASSY STRANDS formed as lava droplets were propelled in the air, getting stretched into shape

Answer 83

PELE’S HAIR :>

Question 83

VOLCANIC PRODUCT

naturally occurring solids that LACK ORDERLY CRYSTALLINE STRUCTURE, formed due to quenching or rapid cooling of lava

Answer 83

GLASS :>

Question 83

GLASS

BLACK, GLASSY, streamlined particles formed as lava droplets that quenched in flight

Answer 83

PELE’S TEARS :>

Question 84

hot flows made up of a MIXTURE OF PYROCLASTIC MATERIALS AND HOT GASES travelling at RAPID SPEEDS

Answer 84

PYROCLASTIC DENSITY CURRENTS (PDCs) :>

Question 85

PYROCLASTIC DENSITY CURRENTS (PDCs) :>

blanket of pyroclastic material and tephra that FALL TO THE GROUND, identified to have good sorting of angular juvenile clasts :>

Answer 85

PYROCLASTIC FALL :>

Question 86

PYROCLASTIC DENSITY CURRENTS (PDCs) :>

“GROUND HUGGING” pyroclastic materials that moves at speeds up to 150 km/h, can reach over 1000 degree celsius, develop poorly sorted beds

Answer 86

PYROCLASTIC FLOW :>

Question 87

PYROCLASTIC DENSITY CURRENTS (PDCs) :>

more dilute and mobile current, can travel up hills and valleys at high velocity and horizontally from eruption site, “PINCH AND SWELLING” beds with moderate sorting of rounded clasts

Answer 87

PYROCLASTIC SURGE :>

Question 88

VOLCANIC PRODUCT

SILICEOUS, low to moderate density, hot VESICULATED flows

Answer 88

PUMICE FLOWS :>

Question 89

VOLCANIC PRODUCT

ANDESITIC to BASALTIC, hot VESICULATED FLOWS

Answer 89

SCORIA FLOWS :>

Question 90

VOLCANIC PRODUCT

compacted or “WELDED” pumice and tuff

Answer 90

IGNIMBRITE :>

Question 91

VOLCANIC PRODUCT

flattened or compacted pumice in IGNIMBRITES

Answer 91

FIAMME :>

Question 92

VOLCANIC PRODUCT

“FIERY CLOUDS”, fluidized mixtures of hot, incandescent rock fragments and gases, “GLOWING AVALANCHE” of pyroclastic debris

Answer 92

NUÉES ARDENTES :>

Question 93

VOLCANIC PRODUCT

THICK MUDFLOWS composed of volcanic materials, up to tens of meters thick with consistency of wet cement

Answer 93

LAHAR :>

Question 94

LAHAR

DIRECTLY associated with active volcanic activity; HOT lahar

Answer 94

SYN-ERUPTION LAHAR :>

Question 95

LAHAR

INDIRECTLY associated with active volcanic activity, remobilization of volcanic deposits; COLD Lahar

Answer 95

POST-ERUPTION LAHAR :>

Question 96

this Philippine volcano eruption occurred on JUNE 15, 1991 that coincided with Typhoon Yunya, causing voluminous lahar that covered most parts of Zambales

Answer 96

1991 PINATUBO ERUPTION :>

Question 97

VOLCANIC PRODUCT

MASS WASTING of large volumes of volcanic materials along volcanic flanks

Answer 97

DEBRIS AVALANCHE :>

Question 98

DEBRIS AVALANCHE

associated with MOVEMENT OF MAGMA beneath volcanic edifice

Answer 98

BEZYMIANNY-TYPE :>

Question 99

DEBRIS AVALANCHE

associated with SEISMICITY

Answer 99

BANDAI-TYPE :>

Question 100

an eruption that produced a LATERAL BLAST, causing its northern flank to collapse into a debris avalanche and caused lahar

Answer 100

1980 MT. SAINT HELENS ERUPTION :>

Question 101

ORIGIN OF VOLCANICLASTS

COGNATE CLASTS, derived directly from magma involved in the volcanic activity

Answer 101

JUVENILE CLASTS :>

Question 102

ORIGIN OF VOLCANICLASTS

rock inclusions from the vent walls or brought from the surface by lava or pyroclastic walls

Answer 102

ACCIDENTAL CLASTS :>

Question 103

FRAGMENTATION PROCESSES

fragmentation through EXPLOSIVE EJECTION AND AERIAL DISPERSAL of pyroclasts of rock and magma from a volcanic vent

Answer 103

PYROCLASTIC PROCESS :>

Question 104

FRAGMENTATION PROCESSES

fragmentation as result of BREAKING UP COOLER AND RIGID EXTERIOR OF LAVA as it moves that can include block-sized autoclasts

Answer 104

AUTOCLASTIC PROCESS :>

Question 105

FRAGMENTATION PROCESSES

fragmentation brought by WEATHERING AND DISINTEGRATION of volcanic rocks

Answer 105

EPICLASTIC PROCESS :>

Question 106

TRANSPORT OF PYROCLASTS

group of clasts with interstitial fluid that INTERACT and MOVE TOGETHER

Answer 106

MASS FLOW TRANSPORT :>

Question 107

TRANSPORT OF PYROCLASTS

clasts within mass flow behaving INDEPENDENTLY in moving interstitial fluids

Answer 107

TRACTION TRANSPORT :>

Question 108

TRANSPORT OF PYROCLASTS

FULLY SUSPENDED clasts in interstitial fluid

Answer 108

SUSPENSION TRANSPORT :>

Question 109

HAZARDS associated with volcanoes and its materials, whether or not the volcano is currently erupting

Answer 109

VOLCANIC HAZARDS :>

Question 110

VOLCANIC HAZARDS

DIRECTLY associated with an on-going eruption

Answer 110

DIRECT HAZARD :>

Question 111

VOLCANIC HAZARDS

INDIRECTLY associated with an eruption

Answer 111

INDIRECT HAZARD :>

Question 112

DIRECT HAZARD

RIVERS OF LAVA extruded from a volcano

Answer 112

LAVA FLOW :>

Question 113

DIRECT HAZARD

pyroclastic materials ejected into the atmosphere that FALL due to gravity

Answer 113

TEPHRA FALL :>

Question 114

DIRECT HAZARD

BLAST directed HORIZONTALLY which comes from the slopes of a volcano

Answer 114

LATERAL BLAST :>

Question 115

DIRECT HAZARD

expelled during eruption phases, high temp. and extreme speed which can be TOXIC to life

Answer 115

VOLCANIC GASES :>

Question 116

DIRECT HAZARD

HOT MIXTURE of volcanic debris and tephra, SATURATED WITH WATER, DIRECTLY related to an on-going eruption

Answer 116

SYN-ERUPTION LAHAR :>

Question 117

DIRECT HAZARD

PYROCLASTIC FLOW, PYROCLASTIC SURGE, AND BASE SURGE

Answer 117

PYROCLASTIC DENSITY CURRENTS (PDCs)

Question 118

INDIRECT HAZARD

COLD MIXTURE of volcanic debris and tephra, SATURATED WITH WATER, occur when old volcanic materials are remobilized

Answer 118

POST-ERUPTION LAHAR :>

Question 119

INDIRECT HAZARD

MASSIVE DEBRIS AVALANCHES due to blasts from eruption

Answer 119

LANDSLIDES :>

Question 120

INDIRECT HAZARD

TSUNAMIS caused by submarine eruptions or massive landslides that MOBILIZE LARGE AMOUNTS OF WATER, causing large waves

Answer 120

VOLCANIC TSUNAMI :>

Question 121

INDIRECT HAZARD

OSCILLATING MOVEMENT of water within an enclosed or limited body of water

Answer 121

SEICHE :>

Question 122

INDIRECT HAZARD

FRACTURES AND FISSURES caused by bulges from the ground due to rising magma

Answer 122

GROUND DEFORMATION :>

Question 123

INDIRECT HAZARD

remobilized pre-existing pyroclastic materials

Answer 123

SECONDARY PDCs :>

Question 124

INDIRECT HAZARD

heat and tremors from volcanic eruptions and their materials can cause man-made structures and materials to collapse, follow a cascade of events leading to explosion and fire

Answer 124

SECONDARY EXPLOSIONS AND FIRE :>

Question 125

ORIGINAL AGENCY for monitoring volcanoes in the Philippines, established through RA 766

Answer 125

COMMISSION ON VOLCANOLOGY (COMVOL) :>

Question 126

WHEN was COMVOL established?

Answer 126

JUNE 20, 1952 :>

Question 127

COMVOL was then renamed to PHIVOLC on MARCH 17, 1982 through EO 784. it was then reestablished as PHIVOLCS after the transfer of seismology monitoring from PAGASA. WHAT is PHIVOLCS?

Answer 127

PHILIPPINE INSTITUTE OF VOLCANOLOGY AND SEISMOLOGY :>

Question 128

OFFICIAL AGENCY established mandated to mitigate disasters that may arise from volcanic eruptions, earthquakes, tsunamis, and other geotectonic phenomena

Answer 128

PHIVOLCS :>

Question 129

WHEN was PHIVOLCS established?

Answer 129

SEPTEMBER 17, 1984

Question 130

BONUS FACTS

active volcanoes are also called what volcano?

Answer 130

HOLOCENE VOLCANO :>

Question 131

BONUS FACTS

tallest mountain from its base to its peak

Answer 131

MAUNA KEA :>

Question 132

BONUS FACTS

tallest mountain due to its peak’s altitude

Answer 132

MT. EVEREST :>

Question 133

BONUS FACTS

farthest peak from the center of the earth

Answer 133

MT. CHIMBORAZO :>

Question 134

BONUS FACTS

this is considered a MAARS, which was caused by phreatomagmatic eruption situated in Laguna

Answer 134

SEVEN LAKES OF SAN PABLO :>

Question 135

A vent in the surface of the Earth or another rocky planet from which hot volcanic gases and vapors are emitted, without any accompanying liquids or solids.

Answer 135

Fumarole

Question 136

A natural volcanic steam vent in which SULFUR GASES are the dominant constituent along with hot water vapour.

Answer 136

Solfatara

Question 137

Two tectonic microplates located in the Molucca Sea resembling a SCISSOR where OPHIOLITES can be found between them

Answer 137

Sangihe and Halmahera

Question 138

Enumerate the 24 Active Volcanoes in the Philippines (From Northernmost to Southernmost)

Answer 138

1. Iraya
2. Smith
3. Babuyan Claro
4. Didicas
5. Camiguin de Babuyanes
6. Cagua
7. Pinatubo
8. Taal
9. Banahaw
10. Isarog
11. Iriga
12. Mayon
13. Bulusan
14. Biliran
15. Kanlaon
16. Cabalian
17. Hibok-Hibok
18. Musuan
19. Ragang
20. Makaturing
21. Leonard Kniassef
22. Matutum
23. Parker
24. Bud Dajo

Question 139

A lung disease caused by inhaling volcanic ash

Answer 139

Pneumonoultramicroscopicsilicovolcanoconiosis