diff --git a/doc/src/Commands_parse.txt b/doc/src/Commands_parse.txt index cbe2261986..1d7c754fa7 100644 --- a/doc/src/Commands_parse.txt +++ b/doc/src/Commands_parse.txt @@ -14,7 +14,7 @@ LAMMPS commands are case sensitive. Command names are lower-case, as are specified command arguments. Upper case letters may be used in file names or user-chosen ID strings. -Here are 6 rulse for how each line in the input script is parsed by +Here are 6 rules for how each line in the input script is parsed by LAMMPS: (1) If the last printable character on the line is a "&" character, @@ -71,7 +71,7 @@ floating-point value. The format string is used to output the result of the variable expression evaluation. If a format string is not specified a high-precision "%.20g" is used as the default. -This can be useful for formatting print output to a desired precion: +This can be useful for formatting print output to a desired precision: print "Final energy per atom: $(pe/atoms:%10.3f) eV/atom" :pre diff --git a/doc/src/pair_python.txt b/doc/src/pair_python.txt index 23da86fc49..b7130c8a10 100644 --- a/doc/src/pair_python.txt +++ b/doc/src/pair_python.txt @@ -98,7 +98,7 @@ verify, that the potential definition in the python class and in the LAMMPS input match. Here is an example for a single type Lennard-Jones potential class -{LJCutMelt} in reducted units, which defines an atom type {lj} for +{LJCutMelt} in reduced units, which defines an atom type {lj} for which the parameters epsilon and sigma are both 1.0: class LJCutMelt(LAMMPSPairPotential): diff --git a/doc/src/pair_style.txt b/doc/src/pair_style.txt index b33897c5aa..1441da2b61 100644 --- a/doc/src/pair_style.txt +++ b/doc/src/pair_style.txt @@ -93,7 +93,7 @@ There are also additional accelerated pair styles (not listed here) included in the LAMMPS distribution for faster performance on CPUs, GPUs, and KNLs. The individual style names on the "Commands pair"_Commands_pair.html doc page are followed by one or more of -(g,i,k,o,t) to indicate which accerlerated styles exist. +(g,i,k,o,t) to indicate which accelerated styles exist. "pair_style none"_pair_none.html - turn off pairwise interactions "pair_style hybrid"_pair_hybrid.html - multiple styles of pairwise interactions diff --git a/doc/src/reset_ids.txt b/doc/src/reset_ids.txt index 391b51fde9..8b217c7b1c 100644 --- a/doc/src/reset_ids.txt +++ b/doc/src/reset_ids.txt @@ -23,7 +23,7 @@ for bond, angle, dihedral, improper topology data. This will create a set of IDs that are numbered contiguously from 1 to N for a N atoms system. -This can be useful to do after perfoming a "delete_atoms" command for +This can be useful to do after performing a "delete_atoms" command for a molecular system. The delete_atoms compress yes option will not perform this operation due to the existence of bond topology. It can also be useful to do after any simulation which has lost atoms, diff --git a/doc/src/run_style.txt b/doc/src/run_style.txt index 6dd9b56908..9defd1314e 100644 --- a/doc/src/run_style.txt +++ b/doc/src/run_style.txt @@ -318,7 +318,7 @@ bond forces = level 1 (innermost loop) angle forces = same level as bond forces dihedral forces = same level as angle forces improper forces = same level as dihedral forces -pair forces = leven N (outermost level) +pair forces = level N (outermost level) kspace forces = same level as pair forces inner, middle, outer forces = no default :ul