The North and South Korea is not peculiar to the impact that climate change and geography have on agriculture in other region
<h3 /><h3>What is a
climate change?</h3>
A climate change and geography brings about increases in temperatures, changes in precipitation patterns, weather events, water availability etc
Generally, a climate change and geography of all region can:
- disrupt food availability
- reduce access to food
- affect food quality etc
In conclusion, the North and South Korea is not peculiar to the impact that climate change and geography have on agriculture in other region.
Read more about climate change
<em>brainly.com/question/24316365</em>
The last statement is correct. Water stores heat better than land mass, so when the heat that is stored in land cools, the heat particles in the air over the ocean is packed very closely and want to be further away from each other. That causes the wind to blow towards land, where it is more room for particles. I hope that made sense.
The mapmakers have to make this choice because of the shape of our planet and because there is still not a method as to how to have both the land shapes and distances to be precise at the same time.
The shape of the earth is the factor that is not allowing (at least for now) that we have both correct land shapes and precise distances on the maps of the Earth. Because the Earth has a rounded shape, as we move further away from the Equator, the shapes are deforming more and more, or rather they are stretching more and more which makes them appear much bigger than they actually are, thus giving us an unrealistic picture of the size of some of the places on our planet.
Answer:
The Suez Canal is a man-made waterway connecting the Mediterranean Sea to the Indian Ocean via the Red Sea. It enables a more direct route for shipping between Europe and Asia, effectively allowing for passage from the North Atlantic to the Indian Ocean without having to circumnavigate the African continent.
Lava flows are the least hazardous of all processes in volcanic eruptions. How far a lava flow travels depends on the flows temperature, silica content, extrusion rate, and slope of the land. A cold lava flow will not travel far and neither will one that has a high silica content. Such a flow would have a high viscosity<span> (a high resistance to flow). A basalt flow like those in Hawai'i have low silica contents and low viscosities so they can flow long distances. Such a flow can move as far away as 4 km from its source and have a thickness of 10 m (Bryant, 1991). These flows can move at rates of several kilometers per hour (Scott, 1989). </span><span>More silica-rich flows can move as far away as 1.3 km from their sources and have thicknesses of 100 m (Bryant, 1991). These flows can move at rates of a few to hundreds of meters per hour (Scott, 1989). If a lava flow is channelized or travels underground in a lava tube then the distance it travels is greatly extended.</span>