Multi-piece hydroponic tower with hinged tower face

What is claimed is: 1. A dual-sided hydroponic tower, comprising: a tower body, said tower body defining a first tower cavity and a second tower cavity, said first tower cavity configured to provide a passageway for a water/nutrient mix, said second tower cavity configured to provide a second passageway for said water/nutrient mix, wherein a first edge portion of said tower body includes a first tower body hinge member, said first tower body hinge member of said first edge portion of said tower body corresponding to said first tower cavity, said tower body further comprising a second tower body hinge member corresponding to a second edge portion of said tower body, said second tower body hinge member of said second edge portion of said tower body corresponding to said second tower cavity; a first tower face plate, wherein an edge portion of said first tower face plate includes a first face plate hinge member, wherein said first tower face plate is hingeably coupled to said tower body via said first tower body hinge member and said first face plate hinge member, wherein said first tower face plate is positionable relative to said tower body in at least a first tower cavity closed position and a first tower cavity open position, said first tower face plate comprising a first plurality of plant container cut-outs, said first plurality of plant container cut-outs configured to accept a first plurality of plant containers; a second tower face plate, wherein an edge portion of said second tower face plate includes a second face plate hinge member, wherein said second tower face plate is hingeably coupled to said tower body via said second tower body hinge member and said second face plate hinge member, wherein said second tower face plate is positionable relative to said tower body in at least a second tower cavity closed position and a second tower cavity open position, said second tower face plate comprising a second plurality of plant container cut-outs, said second plurality of plant container cut-outs configured to accept a second plurality of plant containers; at least one of a first fastener configured to temporarily latch said first tower face plate to said tower body when said first tower face plate is in said first tower cavity closed position; at least one of a second fastener configured to temporarily latch said second tower face plate to said tower body when said second tower face plate is in said second tower cavity closed position; said first tower cavity further comprising a first side wall, a second side wall and a first rear cavity wall, wherein said first side wall flares out relative to said first rear cavity wall when said first tower face plate is positioned in said first tower cavity open position, and wherein said second side wall flares out relative to said first rear cavity wall when said first tower face plate is positioned in said first tower cavity open position; and said second tower cavity further comprising a third side wall, a fourth side wall and a second rear cavity wall, wherein said third side wall flares out relative to said second rear cavity wall when said second tower face plate is positioned in said second tower cavity open position, and wherein said fourth side wall flares out relative to said second rear cavity wall when said second tower face plate is positioned in said second tower cavity open position. 2. The dual-sided hydroponic tower of claim 1 , said at least one of said first fastener comprising a first plurality of fasteners, and said at least one of said second fastener comprising a second plurality of fasteners. 3. The dual-sided hydroponic tower of claim 1 , said at least one of said first fastener comprising at least one of a first snap-fit fastener, and said at least one of said second fastener comprising at least one of a second snap-fit fastener. 4. The dual-sided hydroponic tower of claim 1 , wherein said first side wall is at an angle of approximately 100 degrees relative to said first rear cavity wall when said first tower face plate is positioned in said first tower cavity open position, wherein said second side wall is at an angle of approximately 100 degrees relative to said first rear cavity wall when said first tower face plate is positioned in said first tower cavity open position, wherein said third side wall is at an angle of approximately 100 degrees relative to said second rear cavity wall when said second tower face plate is positioned in said second tower cavity open position, and wherein said fourth side wall is at an angle of approximately 100 degrees relative to said second rear cavity wall when said second tower face plate is positioned in said second tower cavity open position. 5. The dual-sided hydroponic tower of claim 1 , wherein said first side wall is approximately perpendicular to said first rear cavity wall when said first tower face plate is positioned in said first tower cavity closed position, wherein said second side wall is approximately perpendicular to said first rear cavity wall when said first tower face plate is positioned in said first tower cavity closed position, wherein said third side wall is approximately perpendicular to said second rear cavity wall when said second tower face plate is positioned in said second tower cavity closed position, and wherein said fourth side wall is approximately perpendicular to said second rear cavity wall when said second tower face plate is positioned in said second tower cavity closed position. 6. The dual-sided hydroponic tower of claim 1 , further comprising: a first strain relief feature positioned at a first junction, said first junction formed between said first side wall and said first rear cavity wall; a second strain relief feature positioned at a second junction, said second junction formed between said second side wall and said first rear cavity wall; a third strain relief feature positioned at a third junction, said third junction formed between said first side wall and said second side wall; a fourth strain relief feature positioned at a fourth junction, said fourth junction formed between said third side wall and said second rear cavity wall; a fifth strain relief feature positioned at a fifth junction, said fifth junction formed between said fourth side wall and said second rear cavity wall; and a sixth strain relief feature positioned at a sixth junction, said sixth junction formed between said third side wall and said fourth side wall. 7. The dual-sided hydroponic tower of claim 1 , further comprising: a first plurality of vertical ridges formed on a first rear cavity wall, said first rear cavity wall corresponding to said first tower cavity; and a second plurality of vertical ridges formed on a second rear cavity wall, said second rear cavity wall corresponding to said second tower cavity. 8. The dual-sided hydroponic tower of claim 7 , said first plurality of vertical ridges of uniform width, and said second plurality of vertical ridges of uniform width. 9. The dual-sided hydroponic tower of claim 1 , said tower body and said first tower face plate and said second tower face plate each fabricated from a plastic material. 10. The dual-sided hydroponic tower of claim 9 , said plastic material selected from the group consisting of polyethylene, polypropylene, polyvinyl chloride, polytetrafluoroethylene, and acrylonitrile butadiene styrene. 11. The dual-sided hydroponic tower of claim 9 , wherein said plastic material is white. 12. A dual-sided hydroponic tower, comprising: a tower body, said tower body defining a first tower cavity and a second tower cavity, said first tower cavity configured to provide a passageway for a water/nutr