Rock-Type moves are weak against Fighting-Types, Ground-Types, and Steel-Types. Rock-Type Pokémon are weak against Water-Types, Grass-Types, Fighting-Types, Ground-Types, and Steel-Types.
No. Fire-Types are strong against Grass-Types, Bug-Types, Ice-Types, and Steel-Types. Dark-Types are weak against Bug-Types and Fighting-Types.
When attacking, Ghost-Type Pokémon are strong against Psychic-Types and other Ghost-Types, weak against Dark-Types and Steel-Types, and useless against Normal-Types. When being attacked, Ghost-Type Pokémon are strong against Bug-Types and Poison-Types, weak against Dark-Types and other Ghost-Types, and invincible against Normal-Types and Fighting-Types (barring the use of a move like Foresight).
Pupitar is a Rock- and Ground-Type, so it is weak against Steel-Types, Ground-Types, Fighting-Types, and Ice-Types, and exceptionally weak against Water-Types and Grass-Types.
types of audit approach
Isobars - Measure atmospheric pressure Isotherms - Measure temperature Isoheights - Measure elevation
Be fatter
They do not end
elevation please go to www.freewebs.com/mccniu (isolines aren't on it)
no
I assume you may be talking about cliffs and mountains, and isolines referring to lines of equal elevation. Thus when the gradient increases, you are saying you are climbing or moving up a cliff, or hillside. The isolines become closer together, the steeper the incline. If you are climbing a wall, the isolines would be one on top of the other as you ascend, and it would be difficult to view them as separte lines. Hope this answers your question.
All isolines, or iso-intensity lines, connect points having equal values. Weather maps generally contain isobars, lines that connect points with equal barometeric pressure
The answer is ISOHEL
I think so, yes. I'm pretty sure.
Contour lines.
No they don't end because they represent mountains or hills which are circles (they go on forever)
Isolines are the general name. There are different names for each variable being plotted, e.g. isotherms plot lines of equal temperature.