Selectable, internally oriented and/or integrally transportable explosive assemblies

What is claimed is: 1. A well tool system, comprising: an explosive assembly, comprising: an outer housing; first and second explosive components that are rotatable relative to the outer housing; a third explosive component explosively coupled to the second explosive component; a selective firing module which causes detonation of the first, second, and third explosive components in response to receiving a predetermined signal associated with the selective firing module; a rotary detonation coupling comprising first and second detonation boosters located between the selective firing module and the second explosive component; and a rotary electrical connection coupled to the selective firing module and comprising an electrical contact, wherein the electrical contact is rotatable with the second explosive component when the second explosive component rotates relative to the outer housing. 2. The well tool system of claim 1 , wherein the first detonation booster is coupled to the second explosive component, and the second detonation booster is coupled to the third explosive component. 3. The well tool system of claim 1 , wherein the first explosive component comprises a perforating charge and each of the second and third explosive components comprises a detonating cord. 4. The well tool system of claim 1 , wherein the selective firing module is non-rotatable relative to the outer housing. 5. The well tool system of claim 1 , wherein the third explosive component is non-rotatable relative to the outer housing. 6. The well tool system of claim 1 , wherein the explosive assembly further comprises an electrical detonator located between the selective firing module and the third explosive component. 7. A well tool system, comprising: an explosive assembly comprising: an outer housing; first and second explosive components that are rotatable relative to the outer housing; a third explosive component non-rotatable relative to the outer housing and explosively coupled to the second explosive component; a selective firing module which causes detonation of the first, second, and third explosive components in response to receiving a predetermined signal associated with the selective firing module; and a rotary electrical connection coupled to the selective firing module and comprising an electrical contact, wherein the electrical contact is rotatable with the second explosive component when the second explosive component rotates relative to the outer housing. 8. The well tool system of claim 7 , further comprising two of the explosive assemblies coupled together, and wherein the rotary electrical connection electrically connects the selective firing module of one of the explosive assemblies to another of the explosive assemblies. 9. The well tool system of claim 7 , further comprising two of the explosive assemblies coupled together, and wherein the rotary electrical connection electrically connects the selective firing module to an electrical conductor extending along the respective explosive assembly. 10. The well tool system of claim 7 , wherein each explosive assembly further comprises a rotary detonation coupling comprising first and second detonation boosters located between the selective firing module and the second explosive component. 11. The well tool system of claim 10 , wherein the first detonation booster is coupled to the second explosive component, and the second detonation booster is coupled to the third explosive component. 12. The well tool system of claim 7 , wherein the selective firing module is non-rotatable relative to the outer housing. 13. The well tool system of claim 7 , wherein the first explosive component comprises a perforating charge and each of the second and third explosive components comprises a detonating cord. 14. The well tool system of claim 7 , wherein each explosive assembly further comprises an electrical detonator located between the selective firing module and the third explosive component. 15. A method of assembling a well tool system, comprising: assembling multiple explosive assemblies at a location remote from a well location, the assembling comprising: installing an electrical detonator and a first explosive component in a connector, wherein the first explosive component comprises a detonating cord; connecting the connector to an outer housing containing a second explosive component, wherein the second explosive component comprises a perforating charge and another detonating cord; and forming a rotary detonation coupling comprising first and second detonation boosters located between the first and second explosive components, wherein the rotary detonation coupling permits the first explosive component to rotate relative to the second explosive component after the connector and the outer housing are interconnected; and then transporting the explosive assemblies from the remote location to the well location, wherein each explosive assembly further comprises a rotary electrical connection coupled to a selective firing module, and wherein at least one electrical contact of the rotary electrical connection rotates with the second explosive component when the second explosive component rotates relative to the outer housing. 16. A method of assembling a well tool system, comprising: assembling multiple explosive assemblies at a location remote from a well location, the assembling comprising: installing an electrical detonator and a first explosive component in a connector, wherein the first explosive component comprises a detonating cord; connecting the connector to an outer housing containing a second explosive component, wherein the second explosive component comprises a perforating charge and another detonating cord; and forming a rotary detonation coupling comprising first and second detonation boosters located between the first and second explosive components; and then transporting the explosive assemblies from the remote location to the well location, wherein each explosive assembly further comprises a rotary electrical connection coupled to a selective firing module, and wherein at least one electrical contact of the rotary electrical connection rotates with the second explosive component when the second explosive component rotates relative to the outer housing. 17. A method of assembling a well tool system, comprising: assembling multiple explosive assemblies at a location remote from a well location, the assembling comprising: installing a selective firing module, an electrical detonator, and a first explosive component in a connector, wherein the first explosive component comprises a detonating cord; connecting the connector to an outer housing, the outer housing containing a second explosive component that is rotatable relative to the outer housing, wherein the second explosive component comprises a perforating charge and another detonating cord; and forming a rotary detonation coupling comprising first and second detonation boosters located between the first and second explosive components; and then transporting the explosive assemblies from the remote location to the well location, wherein each explosive assembly further comprises a rotary electrical connection coupled to the selective firing module, and wherein at least one electrical contact of the rotary electrical connection rotates with the second explosive component when the second explosive component rotates relative to the outer housing. 18. The method of claim 17 , wherein each rotary electrical connection comprise