Methods and apparatus for processing glass

What is claimed is: 1. A glass forming apparatus comprising: a transition member including a transition chamber; a slot extension attached to a bottom portion of the transition member such that an interior volume of the slot extension is in fluid communication with the transition chamber; and a mechanical reinforcement chosen from one of a first strut, a ridge, or combinations thereof; the mechanical reinforcement being attached to an exterior surface of the slot extension, wherein: the transition chamber and an upper portion of the slot extension are covered by a refractory material; and a lower portion of the slot extension is not covered by a refractory material, and wherein the mechanical reinforcement comprises a plurality of struts and the plurality of struts are embedded in the refractory material. 2. The glass forming apparatus of claim 1 , wherein the mechanical reinforcement is the first strut attached to a first exterior surface of the slot extension and extending outward from the first exterior surface. 3. The glass forming apparatus of claim 1 , wherein the lower portion has a height of at least 1 mm. 4. The glass forming apparatus of claim 1 , wherein: a bottom portion of the slot extension comprises a bottom orifice, the bottom orifice having an orifice opening distance that varies along a width of the orifice. 5. The glass forming apparatus of claim 4 , wherein: the orifice opening distance has a local minimum in a middle portion of the bottom orifice; the orifice opening distance increases in a first direction moving away from the local minimum along the width of the orifice to a first local maximum in a first end portion of the bottom orifice; the orifice opening distance increases in a second direction moving away from the local minimum along the width of the orifice to a second local maximum in a second end portion of the bottom orifice. 6. The glass forming apparatus of claim 1 , further comprising a lower flange and an upper flange configured to run current through the transition member, wherein the transition member comprises walls with variable thickness. 7. The glass forming apparatus of claim 6 , wherein the transition member comprises walls with variable thickness configured to maintain glass temperature in the transition chamber via resistive heating such that average glass temperature varies by less than 1° C. as glass moves through the transition chamber. 8. The glass forming apparatus of claim 6 , wherein the lower flange comprises a U-shaped end engaged with an end portion of the slot extension. 9. A process for forming a glass ribbon using the glass forming apparatus of claim 1 , the process comprising the steps of: supplying a stream of molten glass through the transition chamber of the transition member; passing the molten glass stream into the slot extension; and drawing a glass ribbon from the slot extension. 10. A glass forming apparatus comprising: a transition member including a transition chamber; a slot extension attached to a bottom portion of the transition member such that an interior volume of the slot extension is in fluid communication with the transition chamber; and a mechanical reinforcement chosen from one of a first strut, a ridge, or combinations thereof; the mechanical reinforcement being attached to an exterior surface of the slot extension, wherein: the slot extension is defined by: a first slot wall and a second slot wall in the direction of a slot width, and a first slot end and a second slot end in the direction of a slot thickness; the transition chamber is defined by: a first body portion connected to the first slot wall along a width of the slot and extending upward from the slot; a second body portion connected to the second slot wall along the width of the slot and extending upward from the slot; a first edge portion connected to the first slot end along a thickness of the slot and extending upward from the slot; and a second edge portion connected to the second slot end along the thickness of the slot and extending upward from the slot; wherein the first body portion is connected to the second body portion at a first end by the first edge portion, and the first body portion is connected to the second body portion at a second end by the second edge portion; a thickness of the transition chamber at a first predetermined height is a maximum distance between the first and second body portions in a thickness direction at that height; the thickness of the transition chamber increases as a function of height as distance from the slot increases in a height direction; a width of the transition chamber at a second predetermined height is the maximum distance between the first and second edge portions in the width direction at that height; the width of the transition chamber decreases as a function of height as distance from the slot increases in the height direction; and the thickness of the transition chamber at any given height of the transition chamber does not vary by more than 5% along 50% of the width of the transition chamber at that height. 11. The glass forming apparatus of claim 10 , wherein the first body portion and the second body portion each have a thickness that is less than a thickness of each of the first edge portion and second edge portion. 12. A process for forming a glass ribbon using the glass forming apparatus of claim 10 , the process comprising the steps of: supplying a stream of molten glass through the transition chamber of the transition member; passing the molten glass stream into the slot extension; and drawing a glass ribbon from the slot extension.