Protective apparatus having an impact attenuation component

The invention claimed is: 1. A protective apparatus comprising: a first shin guard and a second shin guard, wherein the first shin guard is a mirror image of the second shin guard, and wherein each of the first shin guard and the second shin guard includes an impact shell and an impact attenuating surface; the impact shell having an anterior surface, an opposite posterior surface, a medial edge, an opposite lateral edge, a superior edge, and an opposite inferior edge; and the impact attenuating structure being less rigid than the impact shell and including an anterior surface adhered to the posterior surface of the impact shell, the impact attenuating structure including a plurality of grooves positioned in a posterior surface of the impact attenuating structure, wherein the impact attenuating structure includes a medial edge, a lateral edge, a superior edge, an inferior edge, and a midline spaced evenly between the medial edge and the lateral edge; wherein a first groove and a second groove in the plurality of grooves extend from the superior edge of the impact attenuating structure to the inferior edge of the impact attenuating structure; wherein the first groove is positioned on a medial side between the midline and the medial edge, and the second groove is positioned on a lateral side between the midline and the lateral edge; wherein the first groove positioned closer to the medial edge includes a shallower groove depth than the second groove, such that a first thickness of impact attenuating structure between the first groove and the anterior surface of the impact attenuating structure is larger than a second thickness of impact attenuating structure between the second groove and the anterior surface of the impact attenuating structure; and wherein a larger distribution of the impact attenuating structure is on the medial side of the impact attenuating structure than the lateral side of the impact attenuating structure. 2. The protective apparatus of claim 1 , wherein the impact attenuating structure is a foam-based material. 3. The protective apparatus of claim 2 , wherein the impact attenuating structure is formed from an ethylene-vinyl acetate material. 4. The protective apparatus of claim 1 , wherein the impact shell is formed from at least one material selected from the following: a) a polypropylene material; b) a styrene-butadiene copolymer material; or c) a carbon fiber-based material. 5. The protective apparatus of claim 1 , wherein three or more grooves in the plurality of grooves are arranged between the first groove and the second groove. 6. The protective apparatus of claim 5 , wherein at least one of the three or more grooves is a hinge groove, and wherein a respective shin guard is configured to bend along the hinge groove to conform to a wearer's shin. 7. The protective apparatus of claim 6 , wherein the hinge groove is aligned with the midline. 8. The protective apparatus of claim 1 , wherein the medial side with the larger distribution is configured to align with a tibia bone of a wearer, and the lateral side is configured to align with a non-bone leg region of the wearer. 9. A shin guard comprising: an impact shell having an anterior surface, an opposite posterior surface, a medial edge, an opposite lateral edge, a superior edge, and an opposite inferior edge; and an impact attenuating structure that is less rigid than the impact shell and includes an anterior surface adhered to the posterior surface of the impact shell, the impact attenuating structure including a plurality of grooves positioned in a posterior surface of the impact attenuating structure, wherein the impact attenuating structure includes a medial edge, a lateral edge, a superior edge, an inferior edge, and a midline spaced evenly between the medial edge and the lateral edge; wherein the plurality of grooves extend from the superior edge of the impact attenuating structure to the inferior edge of the impact attenuating structure; wherein the plurality of grooves includes a medial groove, a lateral groove, and a hinge groove positioned between the medial groove and the lateral groove, the hinge groove aligned with the midline of the impact attenuating structure; wherein the medial groove is positioned closest to the medial edge relative to any other groove of the plurality of grooves and the lateral groove is positioned closest to the lateral edge relative to any other groove of the plurality of grooves; wherein, when in use by a wearer, the shin guard is configured to bend along the hinge groove to conform to a shin of the wearer and to align the medial groove with a tibia bone of the wearer; and wherein the medial groove includes a shallower groove depth than the lateral groove, such that a first thickness of impact attenuating structure between the medial groove and the anterior surface of the impact attenuating structure is larger than a second thickness of impact attenuating structure between the lateral groove and the anterior surface of the impact attenuating structure. 10. The shin guard of claim 9 , wherein the medial groove is positioned closer to the medial edge relative to any other groove in the posterior surface of the impact attenuating structure, and wherein the lateral groove is positioned closest to the lateral edge relative to any other groove in the posterior surface of the impact attenuating structure. 11. A shin guard comprising: an impact shell having an anterior surface, an opposite posterior surface, a medial edge, an opposite lateral edge, a superior edge, and an opposite inferior edge; and an impact attenuating structure that is less rigid than the impact shell and includes an anterior surface adhered to the posterior surface of the impact shell, the impact attenuating structure including a plurality of grooves positioned in a posterior surface of the impact attenuating structure, wherein the impact attenuating structure includes a medial edge, a lateral edge, a superior edge, and an inferior edge; wherein a first groove and a second groove in the plurality of grooves extend from the superior edge of the impact attenuating structure to the inferior edge of the impact attenuating structure; wherein the plurality of grooves includes one or more grooves between the first groove and the second groove; wherein the one or more grooves between the first and second grooves comprises a hinge groove, and wherein the shin guard is configured to bend along the hinge groove to conform to a shin of a wearer, wherein the first groove is positioned closer to the medial edge relative to any other groove in the posterior surface of the impact attenuating structure, and wherein the second groove is positioned closer to the lateral edge relative to any other groove in the posterior surface of the impact attenuating structure; wherein the first groove is positioned closer to the medial edge than the second groove and is configured to align with a tibia bone of the wearer; wherein the first groove includes a shallower groove depth than the second groove, such that a first thickness of impact attenuating structure between the first groove and the anterior surface of the impact attenuating structure is larger than a second thickness of impact attenuating structure between the second groove and the anterior surface of the impact attenuating structure. 12. The shin guard of claim 11 , wherein the one or more grooves between the first groove and the second groove comprises at least three grooves.