What is the Difference Between Newman and Sawhorse Projection?
🆚 Go to Comparative Table 🆚The main difference between Newman and Sawhorse projections lies in their visualization of the spatial orientation of atoms and bonds in organic compounds:
- Newman Projection: In a Newman projection, the two carbon atoms are represented by a circle, and the carbon-carbon bond is viewed along its axis. The front atom is represented as a dot with bonds. This projection provides a side-on view of the molecule.
- Sawhorse Projection: In a Sawhorse projection, the molecule is viewed from an angle, allowing the bonds between the alkane carbons to be viewed obliquely. This projection provides an angular appearance of the molecule.
Both projections are useful in understanding the conformations of organic compounds, particularly alkanes. However, the Sawhorse projection allows for a better visualization of the spatial arrangement of atoms and bonds, making it a more effective tool for predicting relative stability and energy barriers to interconversion of conformations.
Comparative Table: Newman vs Sawhorse Projection
The Newman and Sawhorse projections are both methods used to represent the structure of organic molecules, specifically focusing on the orientation of atoms along a carbon-carbon (C-C) bond. Here is a table comparing the key differences between these two projections:
Feature | Newman Projection | Sawhorse Projection |
---|---|---|
Appearance | Side-on | Angular |
View | Oblique | Hidden bonds |
3D to 2D | Transformation | Perspective |
Drawing | Difficult | Easy |
Newman Projection: This projection displays a chemical bond from front to back, with the front atom represented as a dot and the carbon atom at the back shown as a circle. The C-C bond is hidden in the Newman projection, and it can be drawn in an eclipsed or staggered conformation.
Sawhorse Projection: This projection displays a molecule from an angle rather than the side-on projection. The Sawhorse projection allows the bonds between the alkane carbons to be viewed from an oblique angle, making it easier to visualize the orientation of atoms along a C-C bond.
While both projections can be used to represent the structure of organic molecules, the choice between them often comes down to preference or the specific context in which the projection is being used. For example, Newman projections are more commonplace and may be preferred in certain educational settings.
- Fischer Projection vs Haworth Projection
- Parallel vs Perspective Projection
- Newtonian vs Cassegrain Telescope
- Saw vs Seen
- Weaver vs Picatinny
- Chair vs Boat Conformation
- Sickle vs Scythe
- Free Fall vs Projectile Motion
- Column vs Beam
- Parabola vs Hyperbola
- Bezier Curve vs B-Spline Curve
- Kepler vs Newton Law
- Couch vs Sofa
- Mohr Volhard vs Fajans Method
- Pyramid vs Prism
- Donkey vs Horse
- Hoist vs Crane
- Lucid Dreaming vs Astral Projection
- Sagittal vs Coronal Plane