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English Pages [109]
YEVA Ja
S R A M
YAY
AO
NARAYANA
YEARS
OF EXCELLENCE
JUNIOR COLLEGES
Jr. Intermediate - MPC 2+2 Sina8&8
%12 X)
CDF HOW TO USe
Jr. INTERMEDIATE INDEX Page No.
NAME OF THE SUBJECT
1 - 16
MATHEMATICS-IA
MATHEMATICcs-IB
17- 33
PHYSICS
34 - 63
64- 106
CHEMISTRY
NARAYANA JUNIOR COLLEGES
2019-20
MPC
CDF
ANDHRA PRADESH
lay1N CDF 2019 MPC JR
&% TELANGANA NARAYANA
JR MATHS-IA
CDF MATERIAL
FUNCTIONS SET:
A well defined collection of objects is called a set.
2
FUNCTION
Aand B are two non-empty sets. Then a relation f from A to B, which associates every clement of A to a unique element of B is called a Function.
3
DOMAIN, CO-DOMAIN :
4.
IMAGE , PRE-IMAGE
f:A’ B is a function. Then A = Domain and B = Co-domain
:f:A’ Bis afunction if f(a) =b for ae A,be B, then "6' is im age of 'a'and 'a' is pre-image of 'b'. The set of all images of the elements ofA in B is called a Range.
RANGE
Range of fccodomain of f. 6
INJECTION (OR) ONE ONE FUNCTION
:f:A’ Bis one -one
a,a,EA,f(a)=f(4)’a =4 7.
SURJECTION (OR)
ONTOFUNCTION
:f:AB is onto if VbeB 2 ae ATf(a)=b or -f:A’B is onto Range off= codomain of f (Mar-2017) (May-2016) ( TS Mar-2016) (TS Mar-2017)
8.
BIJECTION (OR) ONE-ONE ONTO
: If f:A’ Bis both one-one and onto, then f is called aBijection.
FUNCTION
9
10.
IDENTITY
Afunctionf:A’A is defined by f()=x,VxeA is called
FUNCTION
Identity function and is denoted by 1,
INVERSE FUNCTION
: If
f:A’B is a bijection, then f:B’A defined
as(b)=u 11,
CONSTANT FUNCTION :
f(a)=b, VbeB is called inverse function.
Afunction f:A’ Bis said to be constant if f(x)=C (a constant) VreA
12. lay2N CDF.
EVEN AND ODD FUNCTIONS : Let f:A’R be afunction i) If f(-r)= f(x), xeA then f is called an even fucntion ii) If f(-x)=-f(), VreA then f is called an odd fucntion
2019 MPC
13. GREATEST INTEGER FUNCTION
For any real number x, we denote by [x] the greatest integer less than or equal to x
JR
ie, [x]=n, if nab,then ax?+ 2hxy + by'= 0(second degree homogenous equation in x and y) represents a pair
of lines passingthrough the origin, which are ax+ (h+h'-ab y=0 and
ax +(h-Vh-ab y=0 2.
It m, and m, are the slopes of the lines represented by ax? +2hxy + by² -0 then -2h
i) Sum of the slopes : m,tm, 3
-2h
, m,m, =
ax +2hxy + by =(1,x +my)(1,x +m,y) Comparing the coefficients of like terms on either side ’1, = a, m,m, = b,
5.
Ja+b|
Ja-b)' +4h?
tan=
atb
V(a-b)' +4h'
2yh'-ab sin = 2/h'-ab la+b|
Ja-b)+44
The angle betwcen the pair of lines represented by the equation ax? +2hxy + by' +2gx +2fy +c=0 is a+b
cos=t
J(a-b) +4h' 1.
I,m, +l, m, = 2h
i)If '9 is angle between the lines represented by ax' +2hxy +by' =0 then cos=+
ii) If '9 is acute then Cost
6
b
ax +2hxy +hy' =(y-m,r)(y-m,x) Comparing thecoefficients oflike terms on cither side m+ m, =
4
ii) Product of the slopes : m m,
b
tan=t
2Vh'-ab sin = + a+b
2yh-ab
Va-b)' +44
(EAMCET-99)
The pair of lines ar + 2hxy +by² =0 represents a pair of perpendicular lines then coefficient of x +coefficient of y' =0(i.e, a +b= 0) If the pair of lines ax + 2hry+ by =0represents coincident lines then h = ab
9
The equation ofbisectors ofangle between the lines a,x+hy+c =0, a,x+ b,y +c, =0is a,x +bytc
a,X+b,y +c
Ja; +b; 10.
If theequat ion ax' + 2hxy +by' =0represents a pair of distinct (i.e., intersecting) lines then the
combined eqation ofthe pair of bisectors of the angles between the lines is A(r-y')= (a-b)*y 11.
The equation of the pair of lines passing through (x,, y,) and parallel to ar' +2hxy +by* =0
isa(x-x,' +2h(x-x,)(y-y,)+b(y-}=0 NARAYANA
Page.No.23
JR MATHS-IB
12. 13.
CDF MATERIAL
The equation ofthe pair of lines passing through (X ) and perpendicular toax' +2hxy +by' =0 is b{r-x,)- 2h(x-x,)(y-y%)+ a(y- y,) =0 ax* +2hxy +by' +2gx + 2 fy +c =(,x+ my+ n)(x+ m,y+n,)
Conparing the cocficients of ike terns on either side 1,1, =a
m,m, =b ; nn, =c; Im, +I,m, = 2h ; In, +l,n, =2g ; m,n, + m,n, =2/
14.
ax +2hxy +by' +2gr+ 2fy +c =(L+my +n, )(x +my +n,) Comparing the coefficients of like terms on either side I' =a,m' =b,n,n, = c, 2im =2h,1(n, +n,) = 2g, m{n, + n,)=2/
1s.
If the second degree equation S= ax? + 2hxy + by² + 2gx + 2fy + c-0 in two variables x and y
represents a pair of straight lines then
i) A= abe +2fgh
-af'-bg- ch' =0
(EAMCET-82,93,96,2000, 08)
and i) h'> ab,g' ac andf' be
16. If ar + 2hry +by' +2g +2fy +c=0 represents a pair of intersecting lines, then their point of intersection is
hf-bg gh-af (EAMCET-97,2000, 02)
ab-h ab-h?
DIRECTION COSINES AND DIRECTION RATIOS 1.
If a given directed line makes angles a, B,y with positive direction of the axes of x, y and z
respectively then cos a, cos B, cos y are called direction cosines (d.c's) of the line and these are usually denoted by l, m, n. 2.
If the direction cosines of a directed line AB are l, m, n then the direction cosines of the directed line BA are -I, -m, -n.
3.
Direction cosines of
) x-axis are (1, 0, 0)
4.
i) y - axis are (0, 1, 0) ii) z-axis are (0, 0, 1). If (. m, n) are the direction cosines of aline then P+ m+ n= 1, i.e cos'a + cos²B +cos²y =1.
5.
If a. B.y are the angle made by a directed line with the positive direction of the coordinate axes, then
6.
7.
(EAMCET-2001)
sin'a +sin'ß +sin'y=2. Direction ratios of the line joining the points A(x, y,, Z), B(X, Y, 2) are (x,-X Y,y, 4-2) If (a, b, c) are direction ratios of a line then direction cosines of the line.
8.
ta
tb
te
Va'+b' +e' va' +b' +c' va' +h' +'
are
If(U.. m,. n,) and (U, m, n,) are direction cosines of two lines and ''is an angle between them, then
NARAYANA
Page. No.24
JR MATHS-IB
CDF MATERIAL
cosd +(I, +m,m, tn,n,). 9.
(EAMCET- 01, 02, 03)
Let (, m, n) and (/, m,, n,) be d.c's of two lines. Then )The lines are paralle) >I=
m,
n,
ii) The line are perpendicular |, tm,m, +n,n, = 10. If0'is an angle betwcen two lincs whose d.r. 's are (a,, b,, c,) and (a,, b,, C,) then a,a, +bb, +e,c, i) cos =t
Va +bË+ Va; +bË +eË iü) The lines are parallel
a,
ii) The lines,are perpendicular 11.
b, a, a, +bb, +c, C, =U.
If A(X,, y,, z), B(x,, y, z,) then the projection of AB on a) i) x - axis is |x-x, | ii) y- axis isy,-y, b) i)) xy plane is
ii) z axis is |Z,- Zl
V,-)+(W;-)' ) yz plane is
i) x plane is J(z,-) +{x,-}
1.
2. 3.
3D-GEOMETRY The distance between twopoints A(4M,4), B(ay,z,) is AB=(-x}+(y-} +{3-3} units
Midpoint of 4(43:4)&B(xz},)is
2
,
2
If P°divides the line segment joining A(,.,z,), B(*,, V,,2,) intheratio /:m internally then P = tmz, y, tmy, lz, + mz, I+ m
4
1+ m
1+ m
If P divides the line segment joining A(x,, y,,z,), B(x,, J,,z,) in the ratio /:m externaly
- mx, ly,- my b, - mz, then P= Lx,|-m |- m |-m 5.
YZ-plane divides the line joining A(4}2), B(x, ),»2,) in the ratio -x :
6.
XY-plane divides the line joining A(x,, y,, z,), B(x,, ',,z, )in the ratio - z, :2,
7
ZX-plane divides the line joining A4,,},,4), B(x,, y,,z,) in the ratio -yi P(x,y,z) diides the line segment A(, y,2).B(,,y,,4]inthe ratio x, -x:-x,
8
NARAYANA
Page.No.25
MATERIAL CDF
3
3
Xyz) 2,).C((
y,, B(M,, z), A(x,V, are vertices whose triangle ofa centroid
JR MATHS-IB 3
The 9
then
C(K,.),z,) D[X,Ya4)
B(,,y,,*4,), A(.J.;),
fourth The
11.
is
to
z)changed
When(X,
12.
are C B, A, If
13.
i)
The
2.
i)
is k where
3.
The
4.
is a,b,c
5.
The
6.
b a
and origin
The whose ii) i)
7.
8.
9
Page.No.26
are is i s (EAMCET-02) k=0, +d=0 'c' the d.r's ).2, from is y, whose intercept =0 + C(x,y} (x, cz cz BC units + +d + of ax+by line -z +b' +e' Va' cz k by co-ordinates= 0 2,), AB 'p' = + the = and + y y V, bv to + of =p. is ax is B(x, to b' CA form distance zx-plane zx-plane + parallel perpendicular nz ax or z,), intercept the PLANE THE the + =0. plane -Z,), AB +my axes a ii) of nz ii) and is A(x, = at is+d=0 (x,,J,,z,) +d=0 the +2, CA is Ix + y are of and are to which my translation BC+ 'a', 4 i s parallelogram (x,,Z) Ix+ ) vertices 0 k +y,-y,, (,m,n) Z+I z, cz intercept = = form or , x + x tcz is through (,V, CA by is is -y,)+e(z-z)=0 a(x-x,)+B(y origin by +e(z-z,) =0 a(x-x,)+b(y-y,) by = whose Y+k,z normal yz-plane yz-plane cosines + from to parallel ax+ O'(h,k,i) =BC ax through -x +X,-X,,)} passing ofa the having plane tetrahedron4 to the direction = + perpendicular through ii) ii) parallel +h,y AB vertices in the plane passing plane plane iff to plane =(x, shifted X to the plane origin plane consecutive the x= collinear +d the a plane the 0z= the k D of Ja'+b'+c' of has = the then to of of The equation to isz the i s vertex Centroid equation from of tcz, ofa origin equation aof normal is equation equation Equation of Y,Z) xy-plane xy-plane Equation Equation Distancelength +by, constant. Ifthree NARAYANA The ax, 10.
1.
JR MATHS-IB CDF MATERIAL 10.
ld,-d, The distance between parallel planes ax + hv+cz+d. =0, ax + by +cz +d, =0 S Va' +b'+?
11.
1) The angle between any two
intersecting planes is the angle between their normals ii) Angle between the planes a,x+ bv+cz+ d, =0 and a,x +b,y +c,z +, 0 cos
a,a, +b,b, tcc,
=+
Ja' tb, +e a,'+b, te,' 12.
)The equations a,x + b,y + c,z+ d, = 0 and a,x + b,y +c,z + d, =0 represent the same plane ift a, :b, : c, :d, = a, :b, : ,:d,. i) parallel a, :b, :, = a, :b, i C; i) perpendicular a, a, +b, b, +c, c,=0.
LIMITS& CONTINUITY lim:
x-a"
3.
lim
5
lim
sin x
4. lim X’0
=1
6. km X0
7.
8. lim
X’0
Sin ax =a
tan ac
a-1
= log, a
10. lin1+
9
lim
11.
m-n
n
I’0
tan x
m
2. lim
X-a
=e
log.(1+x) =1 .
Continuity of afunction f(ox):
12.
Afunction f(x) is said to be continuous at x=aif ’
L j()exists and is equal to fia)
Ltf(x) = f(a) = Lt f(x)
DIFFERENTIATION First principle: If f is differentiable at x'then f'(x) = Lt
f(x+ h)-f(x)
h’0
1.
Thederivative of a function f" at x = a is defined by
f'(a) =lim h’0
NARAYANA
f(a + h) -f(a) h
= lim
f(x) - f(a) X - a
Page.No.27
CDF MATERIAL
JR MATHS-IB 2.
(k is constant) d
3.
dx
iv)
-(kx) k=klk = (kis constant)
4.
dx 5.
6.
dx
d
dd (og,1)=l X
7.
-(a')=a' log,a
dx
Derivatives of trignometric functions_: d 8.
dx d
9.
dz d
10.
11.
dx
dx d
12.
dx d
13.
(sinx) =cosx
(coSx) =-sinx (tanx) = sec'x -(cotx) = -cOsec'x -(secx) = secx tanx
-(cosec x) = -cosecx cotx
dx
Derivatives of inverse trignometric functions: 1
14.
dx
(Sin'x)J -1
15.
16.
(EAMCET-99)
dx
dx
Tan'x)=1t -1
17.
(Cot'x+r
dx
NARAYANA
Page.No.28
JR MATHS-IB d
18.
dx
19.
dx
-(Cose'x)
dx d
21.
22.
23.
25.
of
hyperbolic functions
:
(sinhx)=coshx (coshx) =sinhx
d dx
(tanhx)=sech'x
dx
(sechx)=-sechx tanhx
d 24.
1
-(Se'x)
Derivatives 20.
CDFMATERIAL
dx
cosechx) =-cosechx cÑthí
dx
(coth x)-cosech'x
Derivatives of inverse hyperbolic functions : 26.
1
dx (Sinh'x)=
27. d
28.
dx d
29.
dx
(Tanh'x) -
1
-1
(Sechx)* -* -1
30.
dx
(Coscch')i 1
31.
dx
(Coth 's)F
Let u, V, w be the functions of x and whose derivatives exists : d
32.
33.
-(u±v)= dx -(u) dx
(uv)=
NARAYANA
d dx
(v)
d(u) dx
dx
(or) (u.v) =u.v + v.u'
Page.No.29
JR MATHS-IB 34.
CDF MATERIAL
du
35,
dx
V.u
dy
(or)
(uvw)uyd(w) + vw d{u) + wu d(v) dx
dx
(or) (u.v.w) u.v.w + v.wu + w.u.v
dy
36. If x= f(),
y=g() then
dy dt dx dx dt
ERRORS AND APPROXIMATIONS 1.
If y =f(r) be afunction then i) change (error) in y = Ay
.Ay =f(x+ Ar)-f() ii) Differential of y =dy
:.dy =f' (x)Ar iii) Relative errorin
Ay
iv) Percentage error in y =x100
v) Approximationformula flx+Ax) f(r)+f()Ar 2.
i)Area of the square
, where 'x' is side ofa square
i) volume of the cube =, where '*' is side ofa cube iü) Surface area ofthe sphere 4', where »r' is radius ofa sphere 4
iv)Volume ofthe sphere =r , where 'r' is radius ofasphere 3 v) Volume of thecone =;r'h, where 'r' is the radius, 'h' is the height ofcone vi) Volume ofcylinder =zr'h,where 'r' is base radius,'h' is the height ofcylinder vi) Surface area ofcylinder = 2Irh, where 'r' is base radius, 'h' is the height ofcylinder
TANGENTS AND NORMALS Equations of the tangent and normal to the curve y = f (x) : 1.
The slope of the tangent to the curve y = f(x) at a point P (x,, y, ) is m=
2.
The equation of the tangent at P(x,, y) is y-y, =m(x-x)
3.
The equation of the normal at P (x, y,) is
NARAYANA
dy
dx r()
Page. No.30
CDFMATERIAL
JR MATHS-IB Angle betwecn the two curves : 4.
Let y = fx), y* g(x) be two curves intersecting at a point "P' and let m,, m, bhe the siopes tagens to the twO curves at P' respectively, IrA'is theacute angle between the curves at P then
m, -m,
tan =
|1+m,m,| i)) If m, = m, then the two curves touch cach other at P
i) If mm, = -1 then the two curves cuts orthogonally at 'P'" y=f (x),
P(x,y,) TANGENT
NORMAL
T
5.
N
sub-normal
sub-tangent
P meets the Let P (x,, y) be the any point on the curve y=f(x). Let the tangent and normal at
X-axis at M and N respectively. Draw PO perpendicular to the x-axis Then i) The length of the tangent PT=
y, V1 +m m
i) The length of the normal PN=|y, V1+m' ii) The length of the sub tangent
m
iv) The length of the sub normal QN =|y,.m
Where
RATE MEASURE 1.
The approximate value of
Ay
When Lt Ay exists it is denoted by Ar-0 Ar
2
tends to zero, it is called the rate of change of y with respect to x.
dy dx
is the rate of change of y with respect to x
iedr-= Lt
Ay
Velocity : Consider a particle moving along a straight line OX. Let OP =s be the distance travelled by the particle in time t' measured from a fixed point '0' along OX. Let the particle further travel a small
NARAYANA
Page.No.31
CDF MATERIAL
v. by
denotcd
is and 0
the is '1' time
V=
at velocity
Lt t= time
unit/sec A A time -as As A of ds dt As interval is of A At interval limit As A-s0 snall the a in in AS speed PO=
at
Ihe
JR MATHS-IB average velocity distance The
..
/ser2 unide?t d's
THEOREM conditions following VALUE =0
that such b) (a, conditionsce
the LAGRANGE'SMEAN satisfying f'(c) sec? /radians
d'0dt
point that function such followingone b) atleast ce(a,: abe THEOREM the exists f:la.b]-’R one satisfying there atleast
VALUE function then
exists
f(b) ROLLE'S ROLLES =
is is fla) f f i)) ii) im)
2.
f:(a, If
is f i)
is f ü)
an
abe
el el ,, x,,x, l el all e all for x,x, for increasing functionfunction X,X, f()