Noise attenuating acoustic panel

What is claimed is: 1. An acoustic panel, comprising: a first layer; a perforated second layer; a core forming a chamber between the first and the second layers; a plurality of noise attenuating features projecting partially into the chamber, each of the noise attenuating features formed integral with at least one of the first layer, the second layer or the core; and a protrusion comprising an internal canted surface that projects, partially into a cavity within the core, away from the first layer to a peak of the protrusion, the peak disposed a non-zero distance from the second layer; wherein each of a first set of the noise attenuating features projects partially into the chamber from the first layer to a respective distal end, and a gap is between the distal end and the second layer; wherein one of the noise attenuating features comprises a tube fluidly coupled with a perforation in the second layer, and the internal canted surface is positioned opposite an orifice of and disposed outside of the tube. 2. The acoustic panel of claim 1 , wherein one of the noise attenuating features comprises a baffle. 3. The acoustic panel of claim 1 , wherein one of the noise attenuating features comprises a muffler. 4. The acoustic panel of claim 1 , wherein the tube is fluidly coupled between the perforation in the second layer and the chamber. 5. The acoustic panel of claim 4 , wherein a sidewall of the tube is perforated. 6. The acoustic panel of claim 1 , wherein one of the noise attenuating features is configured as a cone or a pyramid. 7. The acoustic panel of claim 1 , wherein the noise attenuating features are configured to provide at least a portion of a surface, which defines at least a portion of the chamber, with a surface roughness between about 250 Ra and about 2,000 Ra. 8. The acoustic panel of claim 1 , wherein the core further forms a second chamber between the first and the second layers; and the chamber and the second chamber are fluidly discrete. 9. The acoustic panel of claim 1 , wherein the core further forms a second chamber between the first and the second layers; and the chamber and the second chamber are fluidly coupled through one or more apertures in the core. 10. The acoustic panel of claim 1 , wherein the core includes one or more protrusions that extend between the first and the second layers through the chamber. 11. The acoustic panel of claim 1 , wherein the core is formed integral with at least one of the first layer or the second layer. 12. The acoustic panel of claim 1 , wherein a second set of the noise attenuating features project partially into the chamber from the first layer. 13. An apparatus for a turbine engine, the apparatus comprising: an acoustic panel including a first layer, a perforated second layer and a muffler between the first layer and the second layer; wherein the muffler is configured internally within the panel and to attenuate noise generated during operation of the turbine engine; wherein the muffler comprises one or more tubes, each of the one or more tubes is fluidly coupled with a respective perforation in the second layer; wherein the acoustic panel includes a protrusion comprising one or more internal canted surfaces aligned with, positioned opposite an orifice of and disposed outside of each of the one or more tubes; wherein a first of the one or more internal canted surfaces projects, partially into a cavity within the acoustic panel, away from the first layer to a peak of the protrusion; and wherein the peak is disposed a non-zero distance from the second layer. 14. The apparatus of claim 13 , wherein the muffler extends between the first and the second layers. 15. The apparatus of claim 13 , wherein the muffler comprises a plurality of baffles configured to form a plurality of chambers within the acoustic panel. 16. The apparatus of claim 15 , wherein at least some of the baffles are interconnected by one or more webs. 17. The apparatus of claim 13 , wherein the one or more tubes project partially into a chamber and towards the one or more internal canted surfaces. 18. A manufacturing method, comprising: forming an acoustic panel, the acoustic panel comprising a plurality of noise attenuating features projecting partially into an internal chamber of the acoustic panel; wherein at least one of the noise attenuating features is formed using an additive manufacturing system; and wherein each of a first set of the noise attenuating features projects partially into the chamber from a first layer to a respective distal end, a second set of the noise attenuating features project partially into the chamber from a second layer, and a gap is between the distal end and the second layer; wherein the acoustic panel further comprises a protrusion with an internal canted surface that projects, partially into a cavity within the acoustic panel, away from the first layer to a peak of the protrusion, and the peak is disposed a non-zero distance from the second layer; and wherein one of the second set of the noise attenuating features comprises a tube fluidly coupled with a perforation in the second layer, and the internal canted surface is positioned opposite an orifice of and disposed outside of the tube. 19. The manufacturing method of claim 18 , wherein the acoustic panel is formed as a unitary body using the additive manufacturing system.