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2.4: Coordinate Systems and Components of a Vector
https://phys.libretexts.org/Courses/Georgia_State_University/GSU-TM-Physics_I_(2211)/02%3A_Vectors_and_Math_Review_Topics/2.04%3A__Coordinate_Systems_and_Components_of_a_Vector
In three-dimensional space, vector $\vec{A}$ has three vector components: the x-component $\vec{A}_{x}$ = A x $\hat{i}$ , which is the part of vector $\vec{A}$ along the x-axis; the y-component...In three-dimensional space, vector $\vec{A}$ has three vector components: the x-component $\vec{A}_{x}$ = A x $\hat{i}$ , which is the part of vector $\vec{A}$ along the x-axis; the y-component $\vec{A}_{y}$ = A y $\hat{j}$ , which is the part of $\vec{A}$ along the y-axis; and the z-component $\vec{A}_{z}$ = A z $\hat{k}$ , which is the part of the vector along the z-axis.
1.2.3: Coordinate Systems and Components of a Vector (Part 1)
https://phys.libretexts.org/Workbench/PH_245_Textbook_V2/01%3A_Module_0_-_Mathematical_Foundations/1.02%3A_Objective_0.b./1.2.03%3A__Coordinate_Systems_and_Components_of_a_Vector_(Part_1)
The vector component is the product of the unit vector of an axis with its scalar component along that axis. A vector is the resultant of its vector components. The scalar x-component of a vector can...The vector component is the product of the unit vector of an axis with its scalar component along that axis. A vector is the resultant of its vector components. The scalar x-component of a vector can be expressed as the product of its magnitude with the cosine of its direction angle, and the scalar y-component can be expressed as the product of its magnitude with the sine of its direction angle.
2.11.4: Coordinate Systems and Components of a Vector
https://phys.libretexts.org/Courses/Georgia_State_University/GSU-TM-Physics_II_(2212)/02%3A_Math_Review/2.11%3A_Vectors/2.11.04%3A__Coordinate_Systems_and_Components_of_a_Vector
In three-dimensional space, vector $\vec{A}$ has three vector components: the x-component $\vec{A}_{x}$ = A x $\hat{i}$ , which is the part of vector $\vec{A}$ along the x-axis; the y-component...In three-dimensional space, vector $\vec{A}$ has three vector components: the x-component $\vec{A}_{x}$ = A x $\hat{i}$ , which is the part of vector $\vec{A}$ along the x-axis; the y-component $\vec{A}_{y}$ = A y $\hat{j}$ , which is the part of $\vec{A}$ along the y-axis; and the z-component $\vec{A}_{z}$ = A z $\hat{k}$ , which is the part of the vector along the z-axis.
2.9.4: Coordinate Systems and Components of a Vector
https://phys.libretexts.org/Courses/Georgia_State_University/GSU-TM-Introductory_Physics_II_(1112)/02%3A_Math_Review/2.09%3A_Vectors/2.9.04%3A__Coordinate_Systems_and_Components_of_a_Vector
In three-dimensional space, vector $\vec{A}$ has three vector components: the x-component $\vec{A}_{x}$ = A x $\hat{i}$ , which is the part of vector $\vec{A}$ along the x-axis; the y-component...In three-dimensional space, vector $\vec{A}$ has three vector components: the x-component $\vec{A}_{x}$ = A x $\hat{i}$ , which is the part of vector $\vec{A}$ along the x-axis; the y-component $\vec{A}_{y}$ = A y $\hat{j}$ , which is the part of $\vec{A}$ along the y-axis; and the z-component $\vec{A}_{z}$ = A z $\hat{k}$ , which is the part of the vector along the z-axis.
3.1: Coordinate Systems and Components of a Vector (Part 1)
https://phys.libretexts.org/Courses/Merrimack_College/Conservation_Laws_Newton's_Laws_and_Kinematics_version_2.0/03%3A_C3)_Vector_Analysis/3.01%3A__Coordinate_Systems_and_Components_of_a_Vector_(Part_1)
The vector component is the product of the unit vector of an axis with its scalar component along that axis. A vector is the resultant of its vector components. The scalar x-component of a vector can...The vector component is the product of the unit vector of an axis with its scalar component along that axis. A vector is the resultant of its vector components. The scalar x-component of a vector can be expressed as the product of its magnitude with the cosine of its direction angle, and the scalar y-component can be expressed as the product of its magnitude with the sine of its direction angle.
3.4: Coordinate Systems and Components of a Vector (Part 1)
https://phys.libretexts.org/Courses/Muhlenberg_College/MC%3A_Physics_121_-_General_Physics_I/03%3A_Vectors/3.04%3A__Coordinate_Systems_and_Components_of_a_Vector_(Part_1)
The vector component is the product of the unit vector of an axis with its scalar component along that axis. A vector is the resultant of its vector components. The scalar x-component of a vector can...The vector component is the product of the unit vector of an axis with its scalar component along that axis. A vector is the resultant of its vector components. The scalar x-component of a vector can be expressed as the product of its magnitude with the cosine of its direction angle, and the scalar y-component can be expressed as the product of its magnitude with the sine of its direction angle.
2.4: Coordinate Systems and Components of a Vector (Part 1)
https://phys.libretexts.org/Bookshelves/University_Physics/University_Physics_(OpenStax)/Book%3A_University_Physics_I_-_Mechanics_Sound_Oscillations_and_Waves_(OpenStax)/02%3A_Vectors/2.04%3A__Coordinate_Systems_and_Components_of_a_Vector_(Part_1)
The vector component is the product of the unit vector of an axis with its scalar component along that axis. A vector is the resultant of its vector components. The scalar x-component of a vector can...The vector component is the product of the unit vector of an axis with its scalar component along that axis. A vector is the resultant of its vector components. The scalar x-component of a vector can be expressed as the product of its magnitude with the cosine of its direction angle, and the scalar y-component can be expressed as the product of its magnitude with the sine of its direction angle.
3.4: Coordinate Systems and Components of a Vector (Part 1)
https://phys.libretexts.org/Courses/Joliet_Junior_College/Physics_201_-_Fall_2019v2/Book%3A_Custom_Physics_textbook_for_JJC/03%3A_Vectors/3.04%3A__Coordinate_Systems_and_Components_of_a_Vector_(Part_1)
The vector component is the product of the unit vector of an axis with its scalar component along that axis. A vector is the resultant of its vector components. The scalar x-component of a vector can...The vector component is the product of the unit vector of an axis with its scalar component along that axis. A vector is the resultant of its vector components. The scalar x-component of a vector can be expressed as the product of its magnitude with the cosine of its direction angle, and the scalar y-component can be expressed as the product of its magnitude with the sine of its direction angle.
3.4: Coordinate Systems and Components of a Vector (Part 1)
https://phys.libretexts.org/Courses/Joliet_Junior_College/Physics_201_-_Fall_2019/Book%3A_Physics_(Boundless)/03%3A_Vectors/3.04%3A__Coordinate_Systems_and_Components_of_a_Vector_(Part_1)
The vector component is the product of the unit vector of an axis with its scalar component along that axis. A vector is the resultant of its vector components. The scalar x-component of a vector can...The vector component is the product of the unit vector of an axis with its scalar component along that axis. A vector is the resultant of its vector components. The scalar x-component of a vector can be expressed as the product of its magnitude with the cosine of its direction angle, and the scalar y-component can be expressed as the product of its magnitude with the sine of its direction angle.

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