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A B C D E F G H I J K L M N O P Q R S T U V W X Y Z

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P
pairwise mutually exclusive events ¨â¨â¤¬¥¸¨Æ¥ó
parabola ©ßª«½u
paraboloid ©ßª«­±
paradox ®¯½×
parallel ¥­¦æ(ªº)
parallel force ¥­¦æ¤O
parallel lines ¥­¦æ(ª½½u)
parallelepiped ¥­¦æ¤»­±Åé
parallelogram ¥­¦æ¥|Ãä§Î
parallelogram law of addition ¥­¦æ¥|Ãä§Î¥[ªk
parallelogram method ¥­¦æ¥|Ãä§Îªk
parameter °Ñ¼Æ¡F°ÑÅܶq
parametric equation °Ñ¼Æ¤èµ{
parametric form °Ñ¼Æ¦¡
partial fraction ³¡¤À¤À¼Æ¡F¤À¶µ¤À¦¡
partial sum ³¡¤À©M
partial variation ³¡¤ÀÅÜ(¤À)
particle ½èÂI
particular solution ¯S¸Ñ
partition ¤À³Î; ¹º¤À
Pascal's triangle ©¬´µ¥d´µ¤T¨¤§Î
pattern ¼Ò«¬¡F³W«ß
pegboard ¦³¤Õª©
pencil of lines ½u§ô
pendulum Â\
pentadecagon ¤Q¤­Ãä§Î
pentagon ¤­Ãä§Î
per cent ¦Ê¤À²v
percentage ¦Ê¤Àªk¡F¦Ê¤À¼Æ
percentage decrease ¦Ê¤À´î¤Ö
percentage error ¦Ê¤À»~®t
percentage increase ¦Ê¤À¼W¥[
percentile ¦Ê¤À¦ì¼Æ
perfect elastic body §¹¥þ¼u©Êª«Åé
perfect number §¹¥þ¼Æ
perfecr square §¹¥þ¥­¤è
perimeter ©Pªø¡F©P¬É
period ¶g´Á
periodic function ©P´Á¨ç¼Æ
permutation ±Æ¦C
permutation with repetition ­«ÂбƦC
permutation without repetition µL­«ÂбƦC
perpendicular ««½u¡F««ª½(©ó)
perpendicular bisector ««ª½¥­¤À½uúø¡F¤¤««½uúø
perpendicular line ««ª½½uúø
phase ¬Û; ¦ì¬Û
phase shift ¬Û²¾
pictogram ¶H§Î¹Ï
pie chart ¶ê§Î¹Ï¡F¶êä¹Ï
pinboard °vªO
pivot ¤äÂI
place holder ¸É¦ì¼Æ¦r
place value ¦ì­È
plan (1)¥­­±¹Ï¡F(2)­p¹º
plane ¥­­±
plane figure ¥­­±¹Ï§Î
plot ø¹Ï
plus ¥[
point ÂI
point circle ÂI¶ê
point estimation ÂI¦ô­p
point of application of force ¬I¤OÂI
point of contact ¤ÁÂI
point of division ¤ÀÂI
point of inflection (inflexion) ©äÂI; Âà§éÂI
point of intersection ¥æÂI
point-slope form ÂI±×¦¡
Pisson distribution ªyªQ¤À§G
polar axis ᴦb
polar coordinate plane ·¥§¤¼Ð¥­­±
polar coordinate ·¥§¤¼Ð¨t²Î
polar coordinate system ·¥§¤¼Ð¨t²Î
polar coordinates ·¥§¤¼Ð
polar equation ·¥¤èµ{
polar form ÂI±×¦¡
pole ·¥
polygon ¦hÃä§Î
polygon law of addition ¦hÃä§Î¥[ªk
polygon method ¦hÃä§Îªk
polyhedron ¦h­±Åé
polynomial ¦h¶µ¦¡
polynomial equation ¦h¶µ¦¡¤èµ{
population Á`Åé
population mean Á`Å饭§¡(­È)
position vector ¦ì¸m¦V¶q; ¦ì¸m¥Ú¶q
positive ¥¿
positive index ¥¿«ü¼Æ
positive integer ¥¿¾ã¼Æ
positive number ¥¿¼Æ
posterior probability «áÅç·§²v; ¨Æ«á·§²v
post-multiply «á­¼; ¦Û¥k­¼
postulate ¤½³]
potential energy ¶Õ¯à; ¦ì¯à
power (1)¾­¡F­¼¤è¡F(2)¥\²v¡F(3)ÀË©w¤O
power function ¾­¨ç¼Æ
power series ¾­¯Å¼Æ
power set ¾­¶°; ¶Õ¶°
precise ºë±K
precision ºë½T«×
preimage ¹³­ì
premultiply «e­¼; ¦Û¥ª­¼
prime ¯À
prime factor ½è¦]¤l¡F½è¦]¯À
prime number ¯À¼Æ¡F½è¼Æ
primitive (1)¥»­ìªº¡F­ì©lªº¡F(2)­ì¨ç¼Æ
primitive function ­ì¨ç¼Æ
principal (1)¥D­nªº¡F(2)¥»ª÷
principal angle ¥D¨¤
principal axis ¥D¶b
principal value ¥D­È
principal value interval ¥D­È°Ï¶¡
prior probability ¥ýÅç·§²v; ¨Æ¥ý·§²v
prism ±ô¬W(Åé)¡F¨¤¬W(Åé)
prismoid ¥­ºIÀYÙ±À@Åé
probability ·§²v
probability density function ·§²v±K«×¨ç¼Æ
probability distribution ·§²v¤À§G
probability generating function ·§²v¥À¨ç¼Æ
problem À³¥ÎÃD
process box ³B²z®Ø
produce ©µªø
product ­¼¿n¡F¿n
product and sum formula ©M¿n¤¬Åܤ½¦¡
product rule ¿nªk«h
product sample space ¿n¼Ë¥»ªÅ¶¡
product set ¿n¶°
product to sum formula ¿n¤Æ©M®t¤½¦¡
profit ¬Õ§Q
profit per cent ¬Õ§Q¦Ê¤À²v
profits tax §Q±oµ|
progression ¯Å¼Æ
projectile motion ©ß®g¹B°Ê
projecting lines §ë®g½u
projecting plane §ë®g¥­­±
projection §ë¼v(¬M); ®g¼v(¬M)
proof ÃÒ(ÃD)¡FÃÒ©ú
proof by contradiction ¤ÏÃÒªk; ÂkÂÕªk
proof by contrapositive ¤ÏÃÒªk
proper fraction ¯u¤À¼Æ
proper integral ¥¿±`¿n¤À
proper subset ¯u¤l¶°
property ©Ê½è
property tax ª«·~µ|
proportion ¤ñ¨Ò
proportional ¦¨¤ñ¨Ò
proposition ©RÃD
propositional calculus ©RÃDºtºâ
propositional inference ©RÃD±Àºt
protractor ¶q¨¤¾¹
pulley ·Æ½ü
punch card ¥´¤Õ¥d
purely imaginary number ¯Âµê¼Æ
pyramid Ù±À@(Åé)¡F¨¤À@(Åé)
Pythagoras' theorem ²¦¤ó©w²z
Pythagorean triplet ²¦¤ó¤T¤¸¼Æ²Õ