The Bottle Your Grandchildren Will Ask About
This 250th Anniversary "Personal Reserve" is the Only Way to Mark 2026.
Feel the Spirit of Freedom
This isn't just a decanter. It's a legacy - frozen in crystal.
Perfect Gift for Patriots & Collectors,Even More Reasons to Love It
So, Is It Worth It?
Yes! Absolutely! It's a no-brainer.
In a world full of mass-made junk, this bottle feels like a piece of art. Heavy. Purposeful. Like it was made for people who still believe in the American Dream.
This isn't just a decanter. It's a legacy - frozen in crystal.
Perfect Gift for Patriots & Collectors,Even More Reasons to Love It
So, Is It Worth It?
Yes! Absolutely! It's a no-brainer.
In a world full of mass-made junk, this bottle feels like a piece of art. Heavy. Purposeful. Like it was made for people who still believe in the American Dream.
st proto-eyes evolved among animals 600 million years ago about the time of the Cambrian explosion. The last common ancestor of animals possessed the biochemical toolkit necessary for vision, and more advanced eyes have evolved in 96% of animal species in six of the ~35 main phyla. In most vertebrates and some molluscs, the eye allows light to enter and project onto a light-sensitive layer of cells known as the retina. The cone cells (for colour) and the rod cells (for low-light contrasts) in the retina detect and convert light into neural signals which are transmitted to the brain via the optic nerve to produce vision. Such eyes are typically spheroid, filled with the transparent gel-like vitreous humour, possess a focusing lens, and often an iris. Muscles around the iris change the size of the pupil, regulating the amount of light that enters the eye and reducing aberrations when there is enough light. The eyes of most cephalopods, fish, amphibians and snakes have fixed lens shapes, and focusing is achieved by telescoping the lens in a similar manner to that of a camera. The compound eyes of the arthropods are composed of many simple facets which, depending on anatomical detail, may give either a single pixelated image or multiple images per eye. Each sensor has its own lens and photosensitive cell(s). Some eyes have up to 28,000 such sensors arranged hexagonally, which can give a full 360° field of vision. Compound eyes are very sensitive to motion. Some arthropods, including many Strepsiptera, have compound eyes of only a few facets, each with a retina capable of creating an image. With each eye producing a different image, a fused, high-resolution im