An Argo probe is drifting in a Pacific Ocean current with a velocity of 60 cm/s [W] relative to the ground, at a depth of 2000 m. This new deep-dive probe adjusts its ballast to increase density and begins descending at a constant vertical velocity of 40 cm/s [Down], as shown. Yaxateto ground = 60 cm/s [W] 2000 m Up Yocobe to water "= 40 cm/s[down] Down Vorobe to gound It still has a velocity of 60 cm/s [W]. The probe's velocity relative to the ground is the sum of these two velocities. What is the magnitude and direction of this resultant velocity?
An Argo probe is drifting in a Pacific Ocean current with a velocity of 60 cm/s [W] relative to the ground, at a depth of 2000 m. This new deep-dive probe adjusts its ballast to increase density and begins descending at a constant vertical velocity of 40 cm/s [Down], as shown. Yaxateto ground = 60 cm/s [W] 2000 m Up Yocobe to water "= 40 cm/s[down] Down Vorobe to gound It still has a velocity of 60 cm/s [W]. The probe's velocity relative to the ground is the sum of these two velocities. What is the magnitude and direction of this resultant velocity?
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![An Argo probe is drifting in a Pacific Ocean current with a velocity of 60
cm/s [W] relative to the ground, at a depth of 2000 m. This new deep-dive
probe adjusts its ballast to increase density and begins descending at a
constant vertical velocity of 40 cm/s [Down], as shown.
Yaxatento ground = 60 cm/s [W]
2000 m
Up
Vocobe to water
= 40 cm/s [down]
E
Down
Vorobe to gound
It still has a velocity of 60 cm/s [W]. The probe's velocity relative to the
ground is the sum of these two velocities. What is the magnitude and
direction of this resultant velocity?
O 72 cm/s [W34D]
O 100 cm/s
O 100 cm/s [W34D]
O 72 cm/s [D]](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F0517bf5a-67a7-413b-9eec-2ce50e52337b%2Fe481c3aa-f824-42f0-bc8c-3c3e676eadeb%2Ft6tckt7_processed.jpeg&w=3840&q=75)
Transcribed Image Text:An Argo probe is drifting in a Pacific Ocean current with a velocity of 60
cm/s [W] relative to the ground, at a depth of 2000 m. This new deep-dive
probe adjusts its ballast to increase density and begins descending at a
constant vertical velocity of 40 cm/s [Down], as shown.
Yaxatento ground = 60 cm/s [W]
2000 m
Up
Vocobe to water
= 40 cm/s [down]
E
Down
Vorobe to gound
It still has a velocity of 60 cm/s [W]. The probe's velocity relative to the
ground is the sum of these two velocities. What is the magnitude and
direction of this resultant velocity?
O 72 cm/s [W34D]
O 100 cm/s
O 100 cm/s [W34D]
O 72 cm/s [D]
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