Valvetrain impact absorber

The invention claimed is: 1. A valve train for an engine comprising: a valve including a valve stem configured for reciprocating movement to open and close a port in a combustion chamber of the engine; a spring holding the valve biased toward a closed position; an elastomeric element coupled with the valve stem and located within the spring; and a mass coupled with the elastomeric element and able to move relative to the valve stem, wherein the elastomeric element is in contact with the valve stem via a valve retainer fixed to the valve stem, the mass is in direct contact with the elastomeric element but in indirect contact with the valve retainer, a top end of the mass is below a top end of the spring, and a bottom end of the mass is above a bottom end of the spring. 2. The valve train of claim 1 , further comprising a valve retainer fixed to the valve stem, and wherein the elastomeric element is an annular ring encircling at least a portion of the valve retainer, and wherein the mass is an annular ring encircling at least a portion of the elastomeric element. 3. The valve retainer of claim 1 , wherein the mass is between 1.2 grams and 2.0 grams. 4. The valve retainer of claim 1 , wherein the mass is approximately 1.6 grams. 5. The valve retainer of claim 1 , wherein the mass has a longitudinal length of from 3 to 7 mm. 6. The valve retainer of claim 1 , wherein the mass has a longitudinal length of approximately 5 mm. 7. The valve retainer of claim 1 , wherein the mass is approximately 4 times thicker than the elastomeric ring in a radial direction. 8. The valve retainer of claim 1 , wherein the mass has a thickness of from 1.0 to 1.6 mm. 9. The valve retainer of claim 1 , wherein the elastomeric element has a thickness of from 0.1 mm to 0.5 mm. 10. The valve retainer of claim 1 , wherein the mass has a thickness of approximately 1.3 mm. 11. The valve retainer of claim 1 , wherein the elastomeric element has a thickness of approximately 0.3 mm. 12. A valve train for an engine comprising: a valve including a valve stem configured for reciprocating movement to open and close a port in a combustion chamber of the engine; a spring holding the valve biased toward a closed position; an elastomeric element coupled with the valve stem and located within the spring; and a mass coupled with the elastomeric element and able to move relative to the valve stem, wherein the elastomeric element is in direct contact with the valve stem, and the mass is in direct contact with the elastomeric element but in indirect contact with the valve stem. 13. A valve train comprising: a valve including a valve stem of an intake valve movable to open and close a port to an engine combustion chamber; a spring holding the valve biased toward a closed position; and a mass coupled with the valve stem via a resilient member, located within the spring, the mass having a top end below a top end of the spring and a bottom end above a bottom end of the spring. 14. The valve train of claim 13 , further comprising a valve retainer fixed to the valve stem, the valve retainer having an annular coupling surface, the resilient member being an elastomeric ring fitted over the annular coupling surface and the mass being an annular ring compressed over the elastomeric ring, wherein the valve retainer further comprises an annular non-coupling surface radially and longitudinally offset from the annular coupling surface, further comprising an annular gap between the mass and the non-coupling surface, wherein the mass has an outer annular surface substantially radially inline with the non-coupling surface.