Merchant's ship is sailing on the equator. During the sail, a container falls from the ship to the sea. The container sinks in the water until it reaches the sea's bottom at 7.5 km from the water surface. It is given that the container sinks at constant velocity of 10 m/s vertically down towards the bottom of the sea. What is the deflection (size and magnitude) between the point where the container has fallen from the ship and the point where the container hits the bottom of the sea? Select one: a. 409 m to the west b. 823 m to the west ○ c. 729 m to the east d. 75 m to the east e. 75 m to the west ○ f. 823 m to the east g. 729 m to the wast h. 409 m to the east
Merchant's ship is sailing on the equator. During the sail, a container falls from the ship to the sea. The container sinks in the water until it reaches the sea's bottom at 7.5 km from the water surface. It is given that the container sinks at constant velocity of 10 m/s vertically down towards the bottom of the sea. What is the deflection (size and magnitude) between the point where the container has fallen from the ship and the point where the container hits the bottom of the sea? Select one: a. 409 m to the west b. 823 m to the west ○ c. 729 m to the east d. 75 m to the east e. 75 m to the west ○ f. 823 m to the east g. 729 m to the wast h. 409 m to the east
Glencoe Physics: Principles and Problems, Student Edition
1st Edition
ISBN:9780078807213
Author:Paul W. Zitzewitz
Publisher:Paul W. Zitzewitz
Chapter6: Motion In Two Dimensions
Section6.3: Relative Velocity
Problem 27PP
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Question
![Merchant's ship is sailing on the equator. During the sail, a container falls from the ship to the sea. The container sinks in the
water until it reaches the sea's bottom at 7.5 km from the water surface. It is given that the container sinks at constant
velocity of 10 m/s vertically down towards the bottom of the sea.
What is the deflection (size and magnitude) between the point where the container has fallen from the ship and the point
where the container hits the bottom of the sea?
Select one:
a.
409 m
to the west
b.
823 m to the west
○ c.
729 m to the east
d. 75 m to the east
e.
75 m to the west
○ f.
823 m to the east
g.
729 m to the wast
h.
409 m to the east](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fd12023ba-63ab-49f6-a26d-8d0d7367087d%2Ff4ca6858-74c2-4f7d-afde-8f4d2f88af62%2Ftqr8cvx_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Merchant's ship is sailing on the equator. During the sail, a container falls from the ship to the sea. The container sinks in the
water until it reaches the sea's bottom at 7.5 km from the water surface. It is given that the container sinks at constant
velocity of 10 m/s vertically down towards the bottom of the sea.
What is the deflection (size and magnitude) between the point where the container has fallen from the ship and the point
where the container hits the bottom of the sea?
Select one:
a.
409 m
to the west
b.
823 m to the west
○ c.
729 m to the east
d. 75 m to the east
e.
75 m to the west
○ f.
823 m to the east
g.
729 m to the wast
h.
409 m to the east
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