ModelCourses/Calculus/Vectors/Vectors in Space: Difference between revisions
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Vectors in Space | |||
* Vector Algebra | |||
** The right-handed coordinate system, three axes, three coordinate planes and eight octants | |||
*** Sketch a point in space. | |||
*** Sketch a line that passes through a given point and is parallel to an axis. | |||
*** Sketch a plane that contains a point and is parallel to a coordinate plane. | |||
*** Sketch a plane that contains a point and is perpendicular to an axis. | |||
*** Express a vector from Point A to Point B in vector notation. | |||
*** Sketch a position vector. | |||
** Vector algebra: (1) scalar multiplication; (2) vector addition and subtraction | |||
*** Compute and sketching a scalar times a vector and a sum (difference) of two vectors. | |||
** Triangle inequality | |||
Vectors | * Dot Product and Applications | ||
** Two definitions of dot product of two vectors | |||
** Angle between two vectors | |||
*** Compute the dot product of two vectors. | |||
*** Compute the angle between two vectors. | |||
*** Determine if two vectors are parallel or orthogonal (perpendicular) when the cosine of the angle between these two vector is 1, -1, or 0. | |||
*** Determine if the angle between two vectors is acute or obtuse when the dot product of these two vectors is positive or negative. | |||
*** Create a vector v that is parallel to a given vector. | |||
*** Create a vector v that is orthogonal to a given vector. | |||
*** Given a vector u and an angle theta, create a vector v such that the angle between u and v is theta. | |||
** Projection and component of vector u onto vector v | |||
*** Compute the work done by a force vector along a direction vector. | |||
*** Compute the distance from a given point to a given line. | |||
*** Compute the distance between two planes. | |||
* Cross Product and Applications | |||
** Definition of the cross product of two vectors in space | |||
** The cross product of vectors u and v is orthogonal (perpendicular) to u and v and satisfies the right-handed rule. | |||
*** Given two vectors u and v that are not parallel, find a vector which is orthogonal to both u and v. | |||
*** Compute the area of the parallelogram whose two sides are formed by two given vectors. | |||
*** Compute the volume of the parallelepiped whose three sides are formed by three given vectors. | |||
[[ModelCourses/Calculus/Vectors/setUnit1|Download the set definition file for this problem set]] | |||
[[ModelCourses/Multivariate Calculus]] | |||
[[Category:Model_Courses]] | |||
Latest revision as of 14:21, 22 June 2021
Vectors in Space
- Vector Algebra
- The right-handed coordinate system, three axes, three coordinate planes and eight octants
- Sketch a point in space.
- Sketch a line that passes through a given point and is parallel to an axis.
- Sketch a plane that contains a point and is parallel to a coordinate plane.
- Sketch a plane that contains a point and is perpendicular to an axis.
- Express a vector from Point A to Point B in vector notation.
- Sketch a position vector.
- Vector algebra: (1) scalar multiplication; (2) vector addition and subtraction
- Compute and sketching a scalar times a vector and a sum (difference) of two vectors.
- Triangle inequality
- The right-handed coordinate system, three axes, three coordinate planes and eight octants
- Dot Product and Applications
- Two definitions of dot product of two vectors
- Angle between two vectors
- Compute the dot product of two vectors.
- Compute the angle between two vectors.
- Determine if two vectors are parallel or orthogonal (perpendicular) when the cosine of the angle between these two vector is 1, -1, or 0.
- Determine if the angle between two vectors is acute or obtuse when the dot product of these two vectors is positive or negative.
- Create a vector v that is parallel to a given vector.
- Create a vector v that is orthogonal to a given vector.
- Given a vector u and an angle theta, create a vector v such that the angle between u and v is theta.
- Projection and component of vector u onto vector v
- Compute the work done by a force vector along a direction vector.
- Compute the distance from a given point to a given line.
- Compute the distance between two planes.
- Cross Product and Applications
- Definition of the cross product of two vectors in space
- The cross product of vectors u and v is orthogonal (perpendicular) to u and v and satisfies the right-handed rule.
- Given two vectors u and v that are not parallel, find a vector which is orthogonal to both u and v.
- Compute the area of the parallelogram whose two sides are formed by two given vectors.
- Compute the volume of the parallelepiped whose three sides are formed by three given vectors.