answersLogoWhite

0


Want this question answered?

Be notified when an answer is posted

Add your answer:

Earn +20 pts
Q: What is the deflection of objects in the northern hemisphere?
Write your answer...
Submit
Still have questions?
magnify glass
imp
Related questions

What direction do objects moving in the Southern Hemisphere curve?

Objects in the Southern Hemisphere curve to the left due to the Coriolis effect. This is because the Earth's rotation causes a deflection to the left in the Southern Hemisphere. This is the opposite of the deflection in the Northern Hemisphere, where objects curve to the right.


What is the clockwise deflection of air is the northern hemisphere and the counterclockwise deflection of air in the southern hemisphere?

The Coriolis effect is the clockwise deflection of air in the north hemisphere and the counterclockwise deflection in the Southern Hemisphere.


What is the clockwise deflection of air in the northern hemisphere and the and counterclockwise deflection of air in the southern hemisphere?

The Coriolis effect is the clockwise deflection of air in the north hemisphere and the counterclockwise deflection in the Southern Hemisphere.


What is the clockwise deflection of air in the northern hemisphere and the counter clockwise deflection of air in southern?

In the Northern Hemisphere, air is deflected to the right due to the Coriolis effect, resulting in a clockwise rotation. In the Southern Hemisphere, air is deflected to the left, causing a counterclockwise rotation. This deflection is a result of the Earth's rotation causing moving objects to be influenced by the Coriolis force.


What is the clockwise deflection of air in the Northern Hemisphere and the counterclockwise deflection of air in the Southern Hemisphere?

In the Northern Hemisphere, air deflects to the right (clockwise) due to the Coriolis effect. In the Southern Hemisphere, air deflects to the left (counterclockwise) due to the same effect. This phenomenon is a result of Earth's rotation causing moving objects to deviate from a straight path.


What direction do the ocean currents move in the northern hemisphere?

clockwise


How does the Coriolis effect deflect objects in the Northern Hemisphere to the left to the south to the right to the north?

In the Northern Hemisphere, the Coriolis effect deflects objects to the right. This occurs because as objects move northward, the Earth's rotation causes them to lag behind the faster-moving ground beneath them, creating a relative deflection to the right.


What is the coroilos effect?

The Coriolis effect is the apparent deflection of moving objects (such as air currents or ocean currents) caused by the Earth's rotation. It causes objects to veer to the right in the Northern Hemisphere and to the left in the Southern Hemisphere. It influences global wind patterns and ocean currents.


What is the corioles effect?

The Coriolis effect is a deflection of moving objects (such as wind and ocean currents) caused by the rotation of the Earth. In the Northern Hemisphere, moving objects are deflected to the right, while in the Southern Hemisphere, they are deflected to the left. This effect influences global weather patterns and ocean circulation.


What would be the direction of the deflection knowing that the body can be affected by coriolis force?

Right in the northern hemisphere, left in the southern hemisphere.


How does coriolis effect influence motion of free-moving objects?

The Coriolis effect influences the motion of free-moving objects by causing them to deflect to the right in the Northern Hemisphere and to the left in the Southern Hemisphere. This deflection is a result of the Earth's rotation impacting the trajectory of moving objects, such as air masses or ocean currents, on a rotating planet.


Coriolis effect exists because?

The Coriolis effect exists due to the Earth's rotation. As the Earth rotates, objects in motion, such as air and water, are deflected to the right in the Northern Hemisphere and to the left in the Southern Hemisphere. This deflection is responsible for the curved paths of moving objects on the Earth's surface.