
If \[x\] and \[y\] are two unit vectors and \[\pi \] is the angle between them, then \[\dfrac{1}{2}\left| {\vec x - \vec y} \right|\] is equal to
A. \[3\]
B. \[ - 4\]
C. \[1\]
D. \[9\]
Answer
163.8k+ views
Hint: In the given question, we need to find the value of \[\dfrac{1}{2}\left| {\vec x - \vec y} \right|\]. For this, we will use the definition of dot product and modulus of a vector to get the desired result.
Formula used: The following formula used for solving the given question.
The dot product of two vectors such as \[\vec u\] and \[\vec v\] is given by \[\vec u \cdot \vec v = uv\cos \theta \]
Complete step by step solution: We know that \[x\] and \[y\] are two unit vectors and \[\pi \] is the angle between them.
Here, we have \[\dfrac{1}{2}\left| {\vec x - \vec y} \right|\].
\[\dfrac{1}{2}\left| {\vec x - \vec y} \right| = \dfrac{{\sqrt {\left( {x - y} \right)\left( {x - y} \right)} }}{2}\]
\[\dfrac{1}{2}\left| {\vec x - \vec y} \right| = \dfrac{{\sqrt {{{\left| x \right|}^2} - 2x \cdot y + {{\left| y \right|}^2}} }}{2}\]
By simplifying, we get
\[\dfrac{1}{2}\left| {\vec x - \vec y} \right| = \dfrac{{\sqrt {2 - 2\left| x \right|\left| y \right|\cos \pi } }}{2}\]
\[\dfrac{1}{2}\left| {\vec x - \vec y} \right| = \left| {\sin \left( {\dfrac{\pi }{2}} \right)} \right|\]
\[\dfrac{1}{2}\left| {\vec x - \vec y} \right| = 1\]
Hence, if \[x\] and \[y\] are two unit vectors and \[\pi \] is the angle between them, then \[\dfrac{1}{2}\left| {\vec x - \vec y} \right|\] is equal to \[1\].
Thus, Option (C) is correct.
Additional Information:The definition of a vector is an entity with both magnitude and direction. The movement of an object between two points is described by a vector. The directed line segment can be used to geometrically represent vector mathematics. The magnitude of a vector is the length of the directed line segment, and the vector's direction is indicated by the angle at which it is inclined. A vector's "Tail" (the point where it begins) and "Head" (the point where it ends and has an arrow) are its respective names.
Note: Many students make mistake in simplification part as well as writing the property of vectors. This is the only way, through which we can solve the example in simplest way. Also, it is necessary to find the appropriate value of \[\dfrac{1}{2}\left| {\vec x - \vec y} \right|\] using the definition of dot product and an angle \[\pi \].
Formula used: The following formula used for solving the given question.
The dot product of two vectors such as \[\vec u\] and \[\vec v\] is given by \[\vec u \cdot \vec v = uv\cos \theta \]
Complete step by step solution: We know that \[x\] and \[y\] are two unit vectors and \[\pi \] is the angle between them.
Here, we have \[\dfrac{1}{2}\left| {\vec x - \vec y} \right|\].
\[\dfrac{1}{2}\left| {\vec x - \vec y} \right| = \dfrac{{\sqrt {\left( {x - y} \right)\left( {x - y} \right)} }}{2}\]
\[\dfrac{1}{2}\left| {\vec x - \vec y} \right| = \dfrac{{\sqrt {{{\left| x \right|}^2} - 2x \cdot y + {{\left| y \right|}^2}} }}{2}\]
By simplifying, we get
\[\dfrac{1}{2}\left| {\vec x - \vec y} \right| = \dfrac{{\sqrt {2 - 2\left| x \right|\left| y \right|\cos \pi } }}{2}\]
\[\dfrac{1}{2}\left| {\vec x - \vec y} \right| = \left| {\sin \left( {\dfrac{\pi }{2}} \right)} \right|\]
\[\dfrac{1}{2}\left| {\vec x - \vec y} \right| = 1\]
Hence, if \[x\] and \[y\] are two unit vectors and \[\pi \] is the angle between them, then \[\dfrac{1}{2}\left| {\vec x - \vec y} \right|\] is equal to \[1\].
Thus, Option (C) is correct.
Additional Information:The definition of a vector is an entity with both magnitude and direction. The movement of an object between two points is described by a vector. The directed line segment can be used to geometrically represent vector mathematics. The magnitude of a vector is the length of the directed line segment, and the vector's direction is indicated by the angle at which it is inclined. A vector's "Tail" (the point where it begins) and "Head" (the point where it ends and has an arrow) are its respective names.
Note: Many students make mistake in simplification part as well as writing the property of vectors. This is the only way, through which we can solve the example in simplest way. Also, it is necessary to find the appropriate value of \[\dfrac{1}{2}\left| {\vec x - \vec y} \right|\] using the definition of dot product and an angle \[\pi \].
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