Method and apparatus for damping vibration of poles

What is claimed is: 1. An apparatus for damping vibration of a pole, the apparatus comprising: a housing; a horizontal surface within the housing; wherein the horizontal surface further comprises: a first inward curved surface, wherein the first inward curved surface forms a first laterally enclosed concave area around a first center point; wherein the first laterally enclosed concave area is comprised of a horizontal wall extending around the first center point; further wherein the first laterally enclose concave area is further comprised of lower surface which extends out from the first center point; a second inward curved surface, wherein the second inward curved surface is within the same horizontal plane as the first inward curved surface; further wherein the second inward curved surface forms a second laterally enclosed concave area around a second center point; wherein the second laterally enclosed concave area is comprised of a horizontal wall extending around the second center point; further wherein the second laterally enclosed concave areas is further comprised of lower surface which extends out from the second center point; and a third inward curved surface, wherein the third inward curved surface is within the same horizontal plane as the first inward curved surface and the second inward curved surface; wherein the third inward curved surface forms a third laterally enclosed concave area around a third center point; wherein the third laterally enclosed concave area is comprised of a horizontal wall extending around the third center point; further wherein the third laterally enclose concave area is further comprised of lower surface which extends out from the third center point; a first dampening weight, wherein the first dampening weight is located within the first enclosed concave area; further wherein the first dampening weight is comprised of a spherical mass which is configured to freely roll within the first enclosed concave area; a second dampening weight, wherein the second dampening weight is located within the second enclosed concave area; further wherein the second dampening weight is comprised of a spherical mass which is configured to freely roll within the second enclosed concave area; a third dampening weight, wherein the third dampening weight is located within the third enclosed concave area; further wherein the third dampening weight is comprised of a spherical mass which is configured to freely roll within the third enclosed concave area; and a lid, wherein the lid is above the horizontal surface; further wherein the lid is configured to seal the first dampening weight within the first enclosed concave area; further wherein the lid is configured to seal the second dampening weight within the second enclosed concave area; further wherein the lid is configured to seal the third dampening weight within the third enclosed concave area; wherein the apparatus is configured to be mounted to a top end of the pole for damping wind-induced first mode vibration of the pole.