LEGACY_S_SPH_PLANE
Backward-compatible wrapper for the sphere-to-plane conduction shape factor. It preserves legacy naming while returning the same geometric factor for steady-state conduction approximations.
The shape-factor form is:
Q = Sk(T_1 - T_2)
Excel Usage
=LEGACY_S_SPH_PLANE(D, Z)D(float, required): Sphere diameter (m).Z(float, required): Distance to plane (m).
Returns (float): Shape factor (m).
Example 1: Example sphere to plane
Inputs:
| D | Z |
|---|---|
| 1 | 100 |
Excel formula:
=LEGACY_S_SPH_PLANE(1, 100)Expected output:
6.29893
Example 2: Closer plane distance
Inputs:
| D | Z |
|---|---|
| 0.4 | 4 |
Excel formula:
=LEGACY_S_SPH_PLANE(0.4, 4)Expected output:
2.57772
Example 3: Small sphere near plane
Inputs:
| D | Z |
|---|---|
| 0.2 | 2 |
Excel formula:
=LEGACY_S_SPH_PLANE(0.2, 2)Expected output:
1.28886
Example 4: Moderate geometry values
Inputs:
| D | Z |
|---|---|
| 0.6 | 8 |
Excel formula:
=LEGACY_S_SPH_PLANE(0.6, 8)Expected output:
3.84195
Python Code
Show Code
from ht.conduction import S_isothermal_sphere_to_plane as ht_S_isothermal_sphere_to_plane
def legacy_S_sph_plane(D, Z):
"""
Deprecated alias for S_sphere_to_plane.
See: https://ht.readthedocs.io/en/latest/ht.conduction.html
This example function is provided as-is without any representation of accuracy.
Args:
D (float): Sphere diameter (m).
Z (float): Distance to plane (m).
Returns:
float: Shape factor (m).
"""
try:
return ht_S_isothermal_sphere_to_plane(D=D, Z=Z)
except Exception as e:
return f"Error: {str(e)}"Online Calculator
Sphere diameter (m).
Distance to plane (m).