A plane is traveling at a speed of 650 mph at a bearing of 60° West of North. It is flying in wind with a speed of 70mph at a bearing of 40° South of West. The resultant vector represents the actual velocity of the plane. Draw a vector diagram, lableing all parts.
A plane is traveling at a speed of 650 mph at a bearing of 60° West of North. It is flying in wind with a speed of 70mph at a bearing of 40° South of West. The resultant vector represents the actual velocity of the plane. Draw a vector diagram, lableing all parts.
A plane is traveling at a speed of 650 mph at a bearing of 60° West of North. It is flying in wind with a speed of 70mph at a bearing of 40° South of West. The resultant vector represents the actual velocity of the plane. Draw a vector diagram, lableing all parts.
A plane is traveling at a speed of 650 mph at a bearing of 60° West of North. It is flying in wind with a speed of 70mph at a bearing of 40° South of West. The resultant vector represents the actual velocity of the plane.
Draw a vector diagram, lableing all parts.
Quantities that have magnitude and direction but not position. Some examples of vectors are velocity, displacement, acceleration, and force. They are sometimes called Euclidean or spatial vectors.
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