Answer:
b
Explanation:
evaporation
;)
hope
it
will
hlp
CAN SOMEONE HELP ME PLEASE
The light blue areas are shallow water and the dark blue and deep waters. Brown part are land, a sensor with “s” goes in the light blue and the sensor with the “d” goes on dark blue. the sensor with “e” can go both in water and on one
Price:
Earthquake sensor: land- $55,00
sea floor- $550,000
shallow sensor: $16,000
deep water sensor: $750,000
The country with the star, sri lanka, they need a tsunami alert warning system before tsunamis arrive. cost must be low, must have time to evacuate, and sensors shouldn’t have false alarms
Answer: I cant see the picture bro
Explanation: Imma need you to also ask the question and specify it so everyone can understand
Answer:
Explanation:
Tsunami is usually caused by earthquake in the ocean floor. So the land-based earthquake sensor is cheap but not very useful here.
The sea floor sensor and deep water sensor will be the right choice and give the earliest warning. But they are also the most expensive.
Shallow water sensor will also detect tsunami but detection will be behind the sea floor and deep water one.
For a low cost warning system, it should consist of a large number of shallow water sensors; plus a few strategically located sea floor and deep sea sensors.
an earthquake hits near this city on the north island of new Zealand
Answer:
hhh
Explanation:
Delphina and Oribus are the same distance from the equator, and they are both near the ocean. Using the information in the map, what is likely to be true about the air temperature of the two places? Why?
A) The air at Oribus is a the same as Delphina. Both locations are the same distance from the equator. The winds push the ocean water, and it turns to follow the coast past both locations, so the same amount of energy is transferred to the air.
B) the , same, as Delphina. Both locations are the same distance from the equator. The winds push the ocean water, and it turns to follow the coast past both locations, so the same amount of energy is transferred to the air.
C) warmer than Delphina. Moving air with a lot of energy turns and follows the coast toward Oribus; moving air with only a little energy turns and follows the coast toward Delphina.
D) warmer than Delphina. The winds push ocean water that turns and follows the coasts. Energy is transferred from the ocean to the air at Oribus and energy is transferred from the air to the ocean at Delphina. warmer, than Delphina. The winds push ocean water that turns and follows the coasts. Energy is transferred from the ocean to the air at Oribus and energy is transferred from the air to the ocean at Delphina.
E) warmer, than Delphina. The winds push ocean water that turns and follows the coasts. A lot of energy is transferred from the ocean to the air at Oribus, and only a little energy is transferred from the ocean to the air at Delphina.
Answer:
At Luderitz, only a little energy is transferred from the ocean to the air. At Florianopolis, a lot of energy is transferred from the air to the ocean. ... Even though the ocean water at each location is a different temperature, the same amount of energy is transferred to the air at both locations.
Explanation:
Answer:
A
Explanation:
Angle relationships.
QUESTIONS ARE #1, & 2, Are <a & <b adjacent angles?
QUESTIONS ARE #3 Are <1 & <2 vertical angles?
QUESTIONS #4 What is the m<8 if m<9=45°?
QUESTIONS #5 What is the m<4 if m<3=137°
Answer:
#1. No, they are not adjacent angles.
#2. Yes, they are adjacent angles.
#3. Yes, they are vertical angles.
#4. 45 degree. Because it's a vertical angle.
#5. 137 degree. Because it's a vertical angle.
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