Question

Which type of weather is typical for a temperate climate?

A.
warm, humid, rainy summers and cool, dry winters

B.
icy and extreme cold conditions year-round

C.
variable weather and distinct seasons that occur in regular patterns

D.
hot, humid weather with two seasons, wet and dry

Answer 1

C.
variable weather and distinct seasons that occur in regular patterns

Answer 2

@kawaiicat123 @djcool31

Answer 3

@agent0smith

Answer 4

@AngelWilliams16

Answer 5

@GGGURUMANJUNATH

Answer 6

Yeah!

Answer 7

@SeaTurtle113

Answer 8

Which explains how the Great Lakes cause excess snow on the eastern edges during the winters?

A.
As the winds blow west over the lakes, they warm, thereby leaving the cooler air mass to drop snow on the eastern shores.

B.
As the winds blow west over the lakes, they release heat and moisture from the lakes, thereby cooling and dropping snow on the eastern shores.

C.
As the winds blow east over the lakes, they pick up heat and moisture from the lakes. When they reach land, they cool and drop snow on the eastern shores.

D.
As the winds blow east over the lakes, they cool and drop snow on the eastern shores.

Answer 9

D.
As the winds blow east over the lakes, they cool and drop snow on the eastern shores.

Answer 10

@agent0smith u think!?!? thats right????

Answer 11

Which explains what earth’s climate would be like if the polar ice sheets extended farther south across Canada, Northern Europe, and Russia?

A.
The ice would absorb more heat energy from the sun, and the earth's climate would become cooler.

B.
The ice would absorb more heat energy from the sun, and the earth's climate would become warmer.

C.
The ice would reflect more heat energy from the sun into space, and the earth's climate would become warmer.

D.
The ice would reflect more heat energy from the sun into space, and the earth's climate would become cooler.

Answer 12

The first Q is C. Not sure about the second one or the third one

Answer 13

@djcool31 can you help with this one

Answer 14

you too @agent0smith

Answer 15

Which explains what earth’s climate would be like if the polar ice sheets extended farther south across Canada, Northern Europe, and Russia?

A.
The ice would absorb more heat energy from the sun, and the earth's climate would become cooler.

B.
The ice would absorb more heat energy from the sun, and the earth's climate would become warmer.

C.
The ice would reflect more heat energy from the sun into space, and the earth's climate would become warmer.

D.
The ice would reflect more heat energy from the sun into space, and the earth's climate would become cooler.

Answer 16

idk will u help w/ my math!?!? lol... but 4real!

Answer 17

yes

Answer 18

@agent0smith plz help with thiis one

Answer 19

B.
The ice would absorb more heat energy from the sun, and the earth's climate would become warmer.

prolly it's like the only one that makes sense 2 meeeee!

Answer 20

Which explains how the ocean warms the air?

A.
The seawater absorbs heat from the sun and warms the air above it by conduction.

B.
The seawater absorbs heat from the sun and warms the air above it by insulation.

C.
The seawater absorbs heat from the sun and warms the air above it by convection.

D.
The seawater absorbs heat from the sun and warms the air above it by radiation.

Answer 21

D.
The seawater absorbs heat from the sun and warms the air above it by radiation.

Answer 22

Which explains how the Coriolis effect causes air circulation?

A.
Air from the poles moves toward the equator faster than the ground below it, so friction causes the air to veer east. In contrast, air from the equator moves toward the poles slower than the ground below it, so friction causes it to veer to the west.

B.
Air from the equator moves toward the poles faster than the ground below it, so friction causes the air to veer east. In contrast, air from the poles moves toward the equator slower than the ground below it, so friction causes it to veer to the west.

C.
Air from the equator moves toward the poles slower than the ground below it, so friction causes the air to veer east. In contrast, air from the poles moves toward the equator faster than the ground below it, so friction causes it to veer to the west.

D.
Air from the equator moves toward the poles faster than the ground below it, so friction causes the air to veer west. In contrast, air from the poles moves toward the equator slower than the ground below it, so friction causes it to veer to the east.

Answer 23

hellloooo!?!? @angel12310

Answer 24

yes

Answer 25

anymore?????????

Answer 26

Which explains how the Coriolis effect causes air circulation?

A.
Air from the poles moves toward the equator faster than the ground below it, so friction causes the air to veer east. In contrast, air from the equator moves toward the poles slower than the ground below it, so friction causes it to veer to the west.

B.
Air from the equator moves toward the poles faster than the ground below it, so friction causes the air to veer east. In contrast, air from the poles moves toward the equator slower than the ground below it, so friction causes it to veer to the west.

C.
Air from the equator moves toward the poles slower than the ground below it, so friction causes the air to veer east. In contrast, air from the poles moves toward the equator faster than the ground below it, so friction causes it to veer to the west.

D.
Air from the equator moves toward the poles faster than the ground below it, so friction causes the air to veer west. In contrast, air from the poles moves toward the equator slower than the ground below it, so friction causes it to veer to the east.

Answer 27

this crap is 2 hard 4 me sorry..... :'((((((((

Answer 28

@angel12310