Reference

All functions
Ar()	Ar: Archimedes number
E()	Evaporation (mol / (m^2 s))
constants()	S3 class constants
convert_conductance()	Convert conductance units
.get_Dx()	D_x: Calculate diffusion coefficient for a given temperature and pressure
.get_H()	H: sensible heat flux density (W / m^2)
.get_L()	L: Latent heat flux density (W / m^2)
.get_Pa()	P_a: density of dry air (g / m^3)
.get_Rabs()	R_abs: total absorbed radiation (W / m^2)
.get_Sr()	S_r: longwave re-radiation (W / m^2)
.get_Tv()	Calculate virtual temperature
.get_dwv()	d_wv: water vapour gradient (mol / m ^ 3)
.get_gbw()	g_bw: Boundary layer conductance to water vapour (m / s)
.get_gh()	g_h: boundary layer conductance to heat (m / s)
.get_gr()	Gr: Grashof number
.get_gtw()	g_tw: total conductance to water vapour (m/s)
.get_hvap()	h_vap: heat of vaporization (J / mol)
.get_nu()	Nu: Nusselt number
.get_ps()	Saturation water vapour pressure (kPa)
.get_re()	Re: Reynolds number
.get_sh()	Sh: Sherwood number
energy_balance()	Calculate leaf energy balance
enviro_par()	S3 class enviro_par
leaf_par()	S3 class leaf_par
make_leafpar() make_enviropar() make_constants()	Make lists of parameters of leaf, environmental, or constant parameters
parameter_names()	Get vector of parameter names
tealeaves	tealeaves package
tl_example1	tealeaves example output 1
tleaves() tleaf()	tleaves: find leaf temperatures for multiple parameter sets