Answer:
The North Eastern Pacific east to the continental divide is called Cascadia. The Cascadian bioregion encompassing the territories of the Alaskan Panhandle, British Columbia, Idaho, Washington, Oregon, northern California, and western Montana as well as very small portions of other nearby states and provinces.
Explanation:
How much has the average global temperature increased since 1860?
Answer:
about 2° farenheit, if its multiple choice do the closest to that number
mercury is the nearest planet to the sun.do you think mercury is the hottest planet in the solar system?why?
Answer:
yes
Explanation:
because the mercury is closer to the sun is first planet
Answer:
yes mercury is close to the sun but it is not the hottest planet
Explanation:
it is not the hottest planet because Mercury lacks atmosphere so it has no way
of trapping the heat that is generated by the sun
Sedimentary rock___.
is formed from cooling magma
is formed when heat and pressure change rocks
usually forms horizontal layers
cannot be changed into metamorphic rock
Answer:
Usually forms horizontal layers
Explanation:
Sedimentary rock doesn't form from magma
Sedimentary rock is not formed with heat and pressure
Sedimentary rock CAN be changed into metamorphic rock
Answer:
C
Explanation:
usually forms horizontal layers.
North Africa is culturally similar to?
a
Southwest Asia
b
North America
c
South America
d
Europe
Complete the following statement.
The biosphere consisting of land is referred to as _____ portion of the biosphere.
Answer:
Lithosphere is the correct answer
cause hydrosphere is water
and stratosphere and atmosphere are part of the air.
What is the capital of China?
Answer:
Beijing BeijingBeijing
Explanation:
Beijing is the capital of China
(2) What percent of the worlds volcanoes happen in the Ring of Fire?
What is the capital of kuwait?
Explanation:
Kuwait City is the capital of Kuwait
Answer: kuwait city-_-
Explanation:
Helpppppppp ima give brainlest
If the sin of an angle is the same as the cos of a second angle, then the two angles are
a) complementary
b) right
c) supplementary
d) congruent
Answer:
79ftyv7ftyy7ff67f77f6f
Explanation:
A globe can only show the planet as a sphere. true or false
Answer:
false
Explanation:
Answer: False
Explanation:
Long-term responses to a tectonic hazard are more important than immediate
responses.’ Do you agree? Using Figure 5 and one or more examples, explain your answer. ( 9 marks )
(Figure 5 is Haiti)
Answer:
Short term responses are important as they are the first line of assistance to the affected victims of the earthquake. Long term responses are equally important as they ensure the survivors are able to integrate back to their normal life after the earthquake
Long-term responses to a tectonic hazard are more important than immediate Long-term and immediate responses are both critical in mitigating the effects of a tectonic hazard. Long-term responses are those that continue for months or years after a disaster.
What is the long-term result of plate tectonics?Plate tectonics has resulted in the movement of entire continents over millions of years. The presence of similar fossils on continents that are now widely separated indicates that continents have moved over geological time.
Long-term responses can last months or even years after a disaster. It entails rebuilding destroyed homes, schools, and hospitals, among other things. It also entails taking steps to strengthen the local economy. Responses differ depending on the stage of development of the country.
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What types of change cause landforms to develop?
A) Ice expanding on the surface of Earth causes landforms to develop.
B) Only wind causes the surface of Earth to change and make landforms.
C) Wind, water, and ice cause the surface of Earth to change and the result is landforms.
Wind, water, and human activity cause the surface of Earth to changes and the result is landforms
Answer:
the earth surface is constantly changing from force in nature the daily process of precipitation wind and land moments result in changes to landforms over a long period of time driving forces into rows and volcanoes and earthquakes people also contribute to changes in the appearance of land
PLEASE HELP ME PLEASE ILL GIVE BRAINLIST FOR CORRECT ANSWERSSS
What languages are given as examples of endangered? Do they matter?
Need ASAP, will give a brainliest to the best answer. If you don't answer the question right, you will get reported.
Answer:
Endangered languages are usually spoken by minority communities. Some examples would be; tribal languages of Papua New Guinea, Alpine Provençal from Italy, and Basque from Spain. These endangered languages matters because it is important to keep the culture and authenticity of a language alive to be able to pass on through generations and understand the history of a culture.
why climate change may cause ecological threats and loss of livelihoods
What does the word society refer to
Answer:
Explanation:
companionship or association with one's fellows : friendly or intimate intercourse : company. 2 : a voluntary association of individuals for common ends especially : an organized group working together or periodically meeting because of common interests, beliefs, or profession.
does the arctic icecap have a high or low albedo
Answer : high albedo
Explanation:
Answer:
The arctic icecap has a sightly high and low albedo because of it's depend on the weather, so if it's low on isolation it'll most likely be the cause of high albedo, but I'm rlly sure it's mostly the cause of high albedo :3
Explanation:
:3
Why did the Israeli/Jewish people want to return to their homeland?
Answer:
Because they were suffering.
The ITCZ is not starionary over the equator, but shifts towards the hemisphere that is experiencing summer. Explain why this shifting of the ITCZ occurs .
.please help due date is tomorrow', iam going to give the first best answer a brainly.
The point at which the trade winds converge forces the air up into the atmosphere, forming the ITCZ. ... The ITCZ follows the sun in that the position varies seasonally. It moves north in the Northern Hemisphere summer and south in the Northern Hemisphere winter.
Or
Paleoclimate studies (e.g., Peterson et al. 2000, Haug et al. 2001) and a series of modeling studies starting with Vellinga and Wood (2002), Chiang and Bitz (2005) and Broccoli et al. (2006) have revealed one important driver of ITCZ shifts: differential heating or cooling of the hemispheres shifts the ITCZ toward the differentially warming hemisphere. So when the northern hemisphere warms, for example, because northern ice cover and with it the polar albedo are reduced, the ITCZ shifts northward. This can be rationalized as follows: When the atmosphere receives additional energy in the northern hemisphere, it attempts to rectify this imbalance by transporting energy across the equator from the north to the south. Most atmospheric energy transport near the equator is accomplished by the Hadley circulation, the mean tropical overturning circulation. The ITCZ lies at the foot of the ascending branch of the Hadley circulation, and the circulation transports energy in the direction of its upper branch, because energy (or, more precisely, moist static energy) usually increases with height in the atmosphere. Southward energy transport across the equator then requires an ITCZ north of the equator, so the upper branch of the Hadley circulation can cross the equator going from the north to the south.
It is not yet established if climate change leads to increase risk from pests, disease and invasive non native species
Answer:
It changes the distribution of organisms.
Explanation:
Climate change has a great effect on the present vegetation and animals due to increase risk from pests, disease and invasive species which are also present in that environment because the environment is favorable for the pest, diseases and invasive species whereas unfavorable for the vegetation and native organisms that are living in that environment for a long time. Due to this change in climate, the distribution of both vegetation as well as organisms changed in the environment.
What is at the bottom of the ocean? Just wanna know what ppl say.
Answer:
fish? uhmmm sand?... ;-;;
Answer:
it is called the seabed and yes it is sand among other things...
Explanation:
:)
What geographic feature divides the cultures of north and South Africa?
Someone, please help me!
Describe how oil-bearing rocks are found and exploited.
Which map displays how and where people produce various goods and services?
A)
Economic
B)
Vegetation
09
Physical
D)
Political
Help please
How was there still enough air-pressure inside Mark Watney's suit even though it was compromised? Do you think this is possible?
Answer:
It is possible.
Explanation:
There is still enough air-pressure inside Mark Watney's suit even though it was compromised because of the presence of huge amount of air in the suit of Mark Watney. When he tear his suit in order to move upward to reach his crew member, the suit lost some amount of air but not all the air is lost so we can say that there is still enough air pressure present inside Mark Watney's suit.
Ridley Scott's science fiction film The Martian, starring Matt Damon, was released in 2015. Drew Goddard developed the screenplay from Andy Weir's novel The Martian, which was published in 2011.
Even though it was compromised due to the existence of a large amount of air in Mark Watney's suit, there is still enough air pressure within. When he tore his suit in attempt to reach his crew member, some air was lost, but not al of it, therefore we can claim that Mark Watney's suit still has enough air pressure.
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Which of the following is one difference between the Robinson and Mercator Projection Maps?
a.
The Robinson is more accurate for directions. The Mercator shows a distortion near the North and South Poles.
b.
The Robinson shows accurate shapes and sizes of the continents. The Mercator map shows parallels and meridians as straight lines.
c.
The Robinson shows parallels and meridians as straight lines. The Mercator shows accurate shapes and sizes of the continents.
d.
The Robinson is an oval-shaped projection. The Mercator was created by Arthur Robinson.
2. A partir de la fórmula para el cálculo de la cantidad de diagonales de cualquier polígono, calcula las diagonales de un pentágono, de un octágono y un decágono
Answer:
El pentágono tiene 5 diagonales.
El octágono tiene 20 diagonales.
El decágono tiene 35 diagonales.
Explanation:
El número de diagonales ([tex]d[/tex]) de un polígono de [tex]n[/tex] lados está descrito por la siguiente expresión:
[tex]d = \frac{n\cdot (n-3)}{2}[/tex] (1)
A continuación, calculamos el número de diagonales para cada polígono:
(i) Pentágono ([tex]n = 5[/tex])
[tex]d = 5[/tex]
(ii) Octágono ([tex]n = 8[/tex])
[tex]d = 20[/tex]
(iii) Decágono [tex](n = 10)[/tex]
[tex]d = 35[/tex]
Which three rocky planets have atmospheres? A. Venus B. Earth C. Mercury D. Mars
The three rocky planets that have atmospheres are: A. Venus, B. Earth, D. Mars
Which three rocky planets have atmospheres?Venus has a thick atmosphere primarily composed of carbon dioxide with traces of other gases such as nitrogen and sulfur dioxide. It also has a dense layer of clouds that consist mainly of sulfuric acid.
Earth has a diverse and life-sustaining atmosphere, primarily composed of nitrogen (78%) and oxygen (21%) along with other gases such as carbon dioxide, water vapor, and trace amounts of other gases.
Mars has a thin atmosphere primarily composed of carbon dioxide (95%) along with nitrogen and argon. Although much thinner than Earth's atmosphere, it still plays a role in the Martian climate and weather patterns.
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Time Zones were established to help deal with the fact that day and night occurs at different times on Earth due to which function?
Answer:
Interestingly, many French maps showed zero degrees in Paris for many years despite the International Meridian Conference’s outcomes in 1884. GMT was the universal reference standard – all other times being stated as so many hours ahead or behind it – but the French continued to treat Paris as the prime meridian until 1911. Even so, the French defined their civil time as Paris Mean Time minus 9 minutes and 21 seconds. In other words, this was the same time as GMT.
In 1972, Coordinated Universal Time (UTC) replaced GMT as the world's time standard. France did not formally use UTC as a reference to its standard time zone (UTC+1) until August in 1978.
Standard time, in terms of time zones, was not established in United States law until the Act of March 19, 1918. The act also established daylight saving time in the nation. Daylight saving time was repealed in 1919, but standard time in time zones remained in law, with the Interstate Commerce Commission (ICC) having the authority over time zone boundaries.
Many countries started using hourly time zones by the late 1920s. Many nations today use standard time zones, but some places use 30 or 45 minute deviations from standard time. Some countries such as China use a single time zone even though their territory extends beyond the 15 degrees of longitude.