Given the following GeoDataFrame:

```
h=pd.DataFrame({'zip':[19152,19047],
'Lat':[40.058841,40.202162],
'Lon':[-75.042164,-74.924594]})
crs='none'
geometry = [Point(xy) for xy in zip(h.Lon, h.Lat)]
hg = GeoDataFrame(h, crs=crs, geometry=geometry)
hg
Lat Lon zip geometry
0 40.058841 -75.042164 19152 POINT (-75.042164 40.058841)
1 40.202162 -74.924594 19047 POINT (-74.924594 40.202162)
```

I need to set the CRS as I did with another GeoDataFrame (like this):

```
c=c.to_crs("+init=epsg:3857 +ellps=GRS80 +datum=GGRS87 +units=mi +no_defs")
```

I've tried this:

```
crs={'init': 'epsg:3857'}
```

and this:

```
hg=hg.to_crs("+init=epsg:3857 +ellps=GRS80 +datum=GGRS87 +units=mi +no_defs")
```

...but no luck.

**Some important notes:**

The other GeoDataFrame for which the above .to_crs method worked was from a shape file and the geometry column was for polygons, not points. Its 'geometry' values looked like this after the .to_crs method was applied:

POLYGON ((-5973.005380655156 3399.646267693398... and when I try the above with the hg GeoDataFrame, they still look like regular lat/long coordinates.

If/when this works out, I'll then concatenate these points with the polygon GeoDataFrame in order to plot both (points on top of polygons).

When I try concatenating the GeoDataFrames first before using the .to_crs method, and then I use the method on both the point and polygon rows at once, I get the following error:

ValueError: Cannot transform naive geometries. Please set a crs on the object first.

Thanks in advance!