Abstract: A breakaway basketball rim, includes a base plate; a rim; and a collapsible assembly to which the base plate and the rim are affixed. The collapsible assembly further includes: a control subassembly affixed to the base plate and the rim; and a bearing subassembly horizontally disposed between the control subassembly and the rim.

Abstract: A locking apparatus for an adjustable basketball goal. The locking apparatus may include a center plate, a sleeve, a first side plate, and a second side plate. The center plate may define a center plate opening. The sleeve may extend from the center plate and define a bore extending therethrough. The bore may terminate at the center plate opening, and the sleeve may further define a pair of apertures disposed opposite one another. The first side plate may extend from a first end portion of the center plate. The second side plate may extend from a second end portion of the center plate.

Abstract: A basketball goal includes a stand, a backboard, a mounting assembly, and a rim. The backboard has a cutout. The mounting assembly includes a lower extension arm, a pair of upper extension arms, a mounting plate, and a mounting frame. Each upper extension arm has a first end coupled to the lower extension arm and a second end coupled to the backboard. A back surface of the mounting plate is affixed to an end of the lower extension arm. The mounting frame is affixed to the mounting plate and defines a channel into which a bottom edge of the backboard is fitted with the cutout around the mounting plate. The rim is affixed to the front surface of the mounting plate through the cutout in the backboard.

Abstract: Techniques for treating a tumor and vaccinating against cancer are described. The techniques include treating the tumor by positioning electrodes over an interface between the tumor and non-tumor tissue and applying sub-microsecond pulsed electric fields. The positioning is facilitated by an imaginary contour line of a threshold value of the electric field. In an example, the imaginary contour line is overlaid over images that include the tumor such that the electrodes are properly positioned over the tumor. The techniques also include vaccinating against cancer by passing sub-microsecond pulsed electric fields through tumor cells of a subject sufficient to cause the tumor cells to express calreticulin on surface membranes. The tumor cells are extracted and introduced with the expressed calreticulin into the subject or another subject, thereby providing a vaccination.

Abstract: A net assembly for an adjustable basketball goal. The net assembly may include a net, a support frame, and a mounting assembly configured to mount the support frame to a post of the adjustable basketball goal. The net may include a net frame having an upper portion including a plurality of net frame sleeves. The support frame may be configured to support the net, and may include at least one elongated member configured to extend through the plurality of net frame sleeves. The support frame may also include a plurality of support arms, each having a first end portion and a second end portion. The first end portion may be configured to couple to the at least one elongated member, and the second end portion may have a support arm sleeve. The support frame may further include a cross brace configured to couple the plurality of support arms.

Abstract: Techniques for treating a tumor and vaccinating against cancer are described. The techniques include treating the tumor by positioning electrodes over an interface between the tumor and non-tumor tissue and applying sub-microsecond pulsed electric fields. The positioning is facilitated by an imaginary contour line of a threshold value of the electric field. In an example, the imaginary contour line is overlaid over images that include the tumor such that the electrodes are properly positioned over the tumor. The techniques also include vaccinating against cancer by passing sub-microsecond pulsed electric fields through tumor cells of a subject sufficient to cause the tumor cells to express calreticulin on surface membranes. The tumor cells are extracted and introduced with the expressed calreticulin into the subject or another subject, thereby providing a vaccination.

Abstract: Techniques for treating a tumor and vaccinating against cancer are described. The techniques include treating the tumor by positioning electrodes over an interface between the tumor and non-tumor tissue and applying sub-microsecond pulsed electric fields. The positioning is facilitated by an imaginary contour line of a threshold value of the electric field. In an example, the imaginary contour line is overlaid over images that include the tumor such that the electrodes are properly positioned over the tumor. The techniques also include vaccinating against cancer by passing sub-microsecond pulsed electric fields through tumor cells of a subject sufficient to cause the tumor cells to express calreticulin on surface membranes. The tumor cells are extracted and introduced with the expressed calreticulin into the subject or another subject, thereby providing a vaccination.

Abstract: A net assembly for an adjustable basketball goal. The net assembly may include a net, a support frame, and a mounting assembly configured to mount the support frame to a post of the adjustable basketball goal. The net may include a net frame having an upper portion including a plurality of net frame sleeves. The support frame may be configured to support the net, and may include at least one elongated member configured to extend through the plurality of net frame sleeves. The support frame may also include a plurality of support arms, each having a first end portion and a second end portion. The first end portion may be configured to couple to the at least one elongated member, and the second end portion may have a support arm sleeve. The support frame may further include a cross brace configured to couple the plurality of support arms.

Abstract: A locking apparatus for an adjustable basketball goal. The locking apparatus may include a center plate, a sleeve, a first side plate, and a second side plate. The center plate may define a center plate opening. The sleeve may extend from the center plate and define a bore extending therethrough. The bore may terminate at the center plate opening, and the sleeve may further define a pair of apertures disposed opposite one another. The first side plate may extend from a first end portion of the center plate. The second side plate may extend from a second end portion of the center plate.

Abstract: Techniques for treating a tumor and vaccinating against cancer are described. The techniques include treating the tumor by positioning electrodes over an interface between the tumor and non-tumor tissue and applying sub-microsecond pulsed electric fields. The positioning is facilitated by an imaginary contour line of a threshold value of the electric field. In an example, the imaginary contour line is overlaid over images that include the tumor such that the electrodes are properly positioned over the tumor. The techniques also include vaccinating against cancer by passing sub-microsecond pulsed electric fields through tumor cells of a subject sufficient to cause the tumor cells to express calreticulin on surface membranes. The tumor cells are extracted and introduced with the expressed calreticulin into the subject or another subject, thereby providing a vaccination.

Abstract: A basketball goal includes a stand, a backboard, a mounting assembly, and a rim. The backboard has a cutout. The mounting assembly includes a lower extension arm, a pair of upper extension arms, a mounting plate, and a mounting frame. Each upper extension arm has a first end coupled to the lower extension arm and a second end coupled to the backboard. A back surface of the mounting plate is affixed to an end of the lower extension arm. The mounting frame is affixed to the mounting plate and defines a channel into which a bottom edge of the backboard is fitted with the cutout around the mounting plate. The rim is affixed to the front surface of the mounting plate through the cutout in the backboard.

Abstract: Techniques for treating a tumor and vaccinating against cancer are described. The techniques include treating the tumor by positioning electrodes over an interface between the tumor and non-tumor tissue and applying sub-microsecond pulsed electric fields. The positioning is facilitated by an imaginary contour line of a threshold value of the electric field. In an example, the imaginary contour line is overlaid over images that include the tumor such that the electrodes are properly positioned over the tumor. The techniques also include vaccinating against cancer by passing sub-microsecond pulsed electric fields through tumor cells of a subject sufficient to cause the tumor cells to express calreticulin on surface membranes. The tumor cells are extracted and introduced with the expressed calreticulin into the subject or another subject, thereby providing a vaccination.

Abstract: A breakaway basketball rim, includes a base plate; a rim; and a collapsible assembly to which the base plate and the rim are affixed. The collapsible assembly further includes: a control subassembly affixed to the base plate and the rim; and a bearing subassembly horizontally disposed between the control subassembly and the rim.

Abstract: Techniques for treating a tumor and vaccinating against cancer are described. The techniques include treating the tumor by positioning electrodes over an interface between the tumor and non-tumor tissue and applying sub-microsecond pulsed electric fields. The positioning is facilitated by an imaginary contour line of a threshold value of the electric field. In an example, the imaginary contour line is overlaid over images that include the tumor such that the electrodes are properly positioned over the tumor. The techniques also include vaccinating against cancer by passing sub-microsecond pulsed electric fields through tumor cells of a subject sufficient to cause the tumor cells to express calreticulin on surface membranes. The tumor cells are extracted and introduced with the expressed calreticulin into the subject or another subject, thereby providing a vaccination.

Abstract: Techniques for treating a tumor and vaccinating against cancer are described. The techniques include treating the tumor by positioning electrodes over an interface between the tumor and non-tumor tissue and applying sub-microsecond pulsed electric fields. The positioning is facilitated by an imaginary contour line of a threshold value of the electric field. In an example, the imaginary contour line is overlaid over images that include the tumor such that the electrodes are properly positioned over the tumor. The techniques also include vaccinating against cancer by passing sub-microsecond pulsed electric fields through tumor cells of a subject sufficient to cause the tumor cells to express calreticulin on surface membranes. The tumor cells are extracted and introduced with the expressed calreticulin into the subject or another subject, thereby providing a vaccination.

Abstract: Techniques for treating a tumor and vaccinating against cancer are described. The techniques include treating the tumor by positioning electrodes over an interface between the tumor and non-tumor tissue and applying sub-microsecond pulsed electric fields. The positioning is facilitated by an imaginary contour line of a threshold value of the electric field. In an example, the imaginary contour line is overlaid over images that include the tumor such that the electrodes are properly positioned over the tumor. The techniques also include vaccinating against cancer by passing sub-microsecond pulsed electric fields through tumor cells of a subject sufficient to cause the tumor cells to express calreticulin on surface membranes. The tumor cells are extracted and introduced with the expressed calreticulin into the subject or another subject, thereby providing a vaccination.

Abstract: The present disclosure relates generally to semiconductor, integrated circuits, and particularly, but not by way of limitation, to centrifugal methods of filling high-aspect ratio vias and trenches with powders, pastes, suspensions of materials to act as any of a conducting, structural support, or protective member of an electronic component.

Abstract: The present disclosure relates generally to semiconductor, integrated circuits, and particularly, but not by way of limitation, to centrifugal methods of filling high-aspect ratio vias and trenches with powders, pastes, suspensions of materials to act as any of a conducting, structural support, or protective member of an electronic component.

Abstract: The present disclosure relates generally to semiconductor, integrated circuits, and particularly, but not by way of limitation, to centrifugal methods of filling high-aspect ratio vias and trenches with powders, pastes, suspensions of materials to act as any of a conducting, structural support, or protective member of an electronic component.

Abstract: A metallization process and material system for metallizing either blind or through vias in silicon, involving forming a low coefficient of thermal expansion composite or suspension, relative to pure metals, such as copper, silver, or gold, and filling the via holes in the silicon with the paste or suspension. The suspensions sinter with minimal bulk shrinkage, forming highly conductive structures without the formation of macroscopic voids. The selected suspension maintains a coefficient of thermal expansion closer to that of silicon.