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- https://math.libretexts.org/Courses/Cosumnes_River_College/Math_401%3A_Calculus_II_-_Integral_Calculus/01%3A_Applications_of_Integration/1.02%3A_Determining_Volumes_by_SlicingThis section covers methods for determining volumes of solids by slicing, specifically using the Disk and Washer Methods. It explains how to set up integrals based on the cross-sectional areas perpend...This section covers methods for determining volumes of solids by slicing, specifically using the Disk and Washer Methods. It explains how to set up integrals based on the cross-sectional areas perpendicular to an axis and includes examples to illustrate these techniques. The section emphasizes understanding the geometric foundations of these methods and applying them to find volumes of various solids, such as those generated by rotating curves around an axis.
- https://math.libretexts.org/Courses/Mission_College/Math_4A%3A_Multivariable_Calculus_(Kravets)/01%3A_Vectors_in_Space/1.07%3A_Cylindrical_and_Quadric_SurfacesWe have been exploring vectors and vector operations in three-dimensional space, and we have developed equations to describe lines, planes, and spheres. In this section, we use our knowledge of planes...We have been exploring vectors and vector operations in three-dimensional space, and we have developed equations to describe lines, planes, and spheres. In this section, we use our knowledge of planes and spheres, which are examples of three-dimensional figures called surfaces, to explore a variety of other surfaces that can be graphed in a three-dimensional coordinate system.
- https://math.libretexts.org/Under_Construction/Purgatory/MAT-004A_-_Multivariable_Calculus_(Reed)/01%3A_Vectors_in_Space/1.07%3A_Cylindrical_and_Quadric_SurfacesWe have been exploring vectors and vector operations in three-dimensional space, and we have developed equations to describe lines, planes, and spheres. In this section, we use our knowledge of planes...We have been exploring vectors and vector operations in three-dimensional space, and we have developed equations to describe lines, planes, and spheres. In this section, we use our knowledge of planes and spheres, which are examples of three-dimensional figures called surfaces, to explore a variety of other surfaces that can be graphed in a three-dimensional coordinate system.
- https://math.libretexts.org/Courses/SUNY_Geneseo/Math_223_Calculus_3/01%3A_Vectors_in_Space/1.06%3A_Quadric_SurfacesWe have been exploring vectors and vector operations in three-dimensional space, and we have developed equations to describe lines, planes, and spheres. In this section, we use our knowledge of planes...We have been exploring vectors and vector operations in three-dimensional space, and we have developed equations to describe lines, planes, and spheres. In this section, we use our knowledge of planes and spheres, which are examples of three-dimensional figures called surfaces, to explore a variety of other surfaces that can be graphed in a three-dimensional coordinate system.
- https://math.libretexts.org/Courses/Mission_College/Math_4A%3A_Multivariable_Calculus_v2_(Reed)/12%3A_Vectors_in_Space/12.06%3A_Quadric_SurfacesWe have been exploring vectors and vector operations in three-dimensional space, and we have developed equations to describe lines, planes, and spheres. In this section, we use our knowledge of planes...We have been exploring vectors and vector operations in three-dimensional space, and we have developed equations to describe lines, planes, and spheres. In this section, we use our knowledge of planes and spheres, which are examples of three-dimensional figures called surfaces, to explore a variety of other surfaces that can be graphed in a three-dimensional coordinate system.
- https://math.libretexts.org/Bookshelves/Calculus/Supplemental_Modules_(Calculus)/Vector_Calculus/1%3A_Vector_Basics/1.8%3A_SurfacesThis section discusses the mathematical concept of surfaces in vector calculus. It defines surfaces as two-dimensional manifolds that exist in three-dimensional space. These can be described by parame...This section discusses the mathematical concept of surfaces in vector calculus. It defines surfaces as two-dimensional manifolds that exist in three-dimensional space. These can be described by parametric equations or as level surfaces of functions of three variables. Key examples include planes, spheres, cylinders, and paraboloids. The section also touches on the idea of orientation for surfaces, which is important when defining surface integrals in vector calculus.
- https://math.libretexts.org/Courses/Cosumnes_River_College/Math_401%3A_Calculus_II_-_Integral_Calculus/01%3A_Applications_of_Integration/1.03%3A_Volumes_of_Revolution_-_The_Disk_and_Washer_MethodsThis section covers methods for determining volumes of solids by slicing, specifically using the Disk and Washer Methods. It explains how to set up integrals based on the cross-sectional areas perpend...This section covers methods for determining volumes of solids by slicing, specifically using the Disk and Washer Methods. It explains how to set up integrals based on the cross-sectional areas perpendicular to an axis and includes examples to illustrate these techniques. The section emphasizes understanding the geometric foundations of these methods and applying them to find volumes of various solids, such as those generated by rotating curves around an axis.
- https://math.libretexts.org/Courses/Lake_Tahoe_Community_College/Interactive_Calculus_Q3/04%3A_Vectors_in_Space/4.07%3A_Quadric_SurfacesWe have been exploring vectors and vector operations in three-dimensional space, and we have developed equations to describe lines, planes, and spheres. In this section, we use our knowledge of planes...We have been exploring vectors and vector operations in three-dimensional space, and we have developed equations to describe lines, planes, and spheres. In this section, we use our knowledge of planes and spheres, which are examples of three-dimensional figures called surfaces, to explore a variety of other surfaces that can be graphed in a three-dimensional coordinate system.
- https://math.libretexts.org/Courses/City_College_of_San_Francisco/CCSF_Calculus/06%3A_Applications_of_Integration/6.01%3A_Volumes_of_Revolution_-_The_Disk_and_Washer_MethodsThis section covers methods for determining volumes of solids by slicing, specifically using the Disk and Washer Methods. It explains how to set up integrals based on the cross-sectional areas perpend...This section covers methods for determining volumes of solids by slicing, specifically using the Disk and Washer Methods. It explains how to set up integrals based on the cross-sectional areas perpendicular to an axis and includes examples to illustrate these techniques. The section emphasizes understanding the geometric foundations of these methods and applying them to find volumes of various solids, such as those generated by rotating curves around an axis.
- https://math.libretexts.org/Courses/City_College_of_San_Francisco/CCSF_Calculus/12%3A_Vectors_in_Space/12.07%3A_Quadric_SurfacesWe have been exploring vectors and vector operations in three-dimensional space, and we have developed equations to describe lines, planes, and spheres. In this section, we use our knowledge of planes...We have been exploring vectors and vector operations in three-dimensional space, and we have developed equations to describe lines, planes, and spheres. In this section, we use our knowledge of planes and spheres, which are examples of three-dimensional figures called surfaces, to explore a variety of other surfaces that can be graphed in a three-dimensional coordinate system.
- https://math.libretexts.org/Courses/De_Anza_College/Calculus_III%3A_Series_and_Vector_Calculus/04%3A_Vectors_in_Space/4.06%3A_Quadric_SurfacesWe have been exploring vectors and vector operations in three-dimensional space, and we have developed equations to describe lines, planes, and spheres. In this section, we use our knowledge of planes...We have been exploring vectors and vector operations in three-dimensional space, and we have developed equations to describe lines, planes, and spheres. In this section, we use our knowledge of planes and spheres, which are examples of three-dimensional figures called surfaces, to explore a variety of other surfaces that can be graphed in a three-dimensional coordinate system.
