y=sin(x)

y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts = 0, π, 2 π, 3 π…

TARGETS: (1) I used CTRL F to find and replace all “x-coordinates” with “x-intercepts” on slide2 (as you

correctly did here below).(2) Sin(bx) work is very good – I’ve just added that if you had to “describe the transformation of

sin(bx) you’d say a: “horizontal stretch, scale factor = 1/b” (see slide9)Last slide, coefficient ‘d’, finish off last slide by stating what kind of “transformation” effect “d” has, is it:• Rotation (how many degrees & clock or anti-clock?) or Reflection (in what mirror line/axes?)?• Horizontal or vertical stretch and by what scale factor? • Horizontal or vertical translation and by what vector?

Superb work GraceDOUBLE MERIT- Triple if you finish off the last slide for transformation effect ofCoefficient ‘d’.

y=asin(x)

y=sin(x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =0, π, 2 π, 3 π…

y=2sin(x)y-coordinates of the minimum= -2y-coordinates of the maximum = 2x-intercepts =0, π, 2 π, 3 π…

y=3sin(x)y-coordinates of the minimum= -3y-coordinates of the maximum = 3x-intercepts =0, π, 2 π, 3 π…

y=asin(x)

y=sin(x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =0, π, 2 π, 3 π…

y=-2sin(x)y-coordinates of the minimum= -2y-coordinates of the maximum = 2x-intercepts =0, π, 2 π, 3 π…

y=-4sin(x)y-coordinates of the minimum= -4y-coordinates of the maximum = 4x-intercepts =0, π, 2 π, 3 π…

y=asin(x)

y=sin(x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =0, π, 2 π, 3 π…

y=1.3sin(x)y-coordinates of the minimum= -1.3y-coordinates of the maximum = 1.3x-intercepts =0, π, 2 π, 3 π…

y=3.4sin(x)y-coordinates of the minimum= -3.4y-coordinates of the maximum = 3.4x-intercepts =0, π, 2 π, 3 π…

y=asin(x)

→ When a is positive, the graph is stretched in the y-axis by the value of a.

→ When a is negative, the graph is flipped in the x-axis and stretched in the y-axis by the value of a.

→ When a is a non-integer value, the graph is stretched in the yaxis by the value of a. If it is also negative, the graph is flipped in the x-axis.

Very clear explanation and 100% accurate with negative, decimals and integers all considered.Very thorough approach.

y=sin(bx)

y=sin(x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =0, π, 2 π, 3 π…

y=sin(2x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =0, π/2, π, 3/2π, 4/2π…

y=sin(3x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =0, 1/3π, 2/3π, π, 4/3π…

y=sin(bx)

y=sin(x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =0, π, 2 π, 3 π…

y=sin(-2x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =0, π/2, π, 3/2π, 4/2π…

y=sin(-4x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =0, 1/4π, 2/4π, 3/4π, π…

y=sin(bx)

y=sin(x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =0, π, 2 π, 3 π…

y=1.3sin(x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =1.3π,

y=3.4sin(x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =

y=sin(bx)

Whether b is positive, negative or a non-integer value it makes the coordinates of the x-intercepts be divided by the value of b.

V.Good – this is a horizontal stretch, scale factor = 1/b

y=sin(x-45)+c

y=sin(x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =0, π, 2 π, 3 π…

y=sin(x-45)y-coordinates of the minimum= -1y-coordinates of the maximum = 1

y=sin(x-45)+c

y=sin(x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =0, π, 2 π, 3 π…

y=sin(x-45)y-coordinates of the minimum= -1y-coordinates of the maximum = 1

y=sin(x-45)+2y-coordinates of the minimum= 1y-coordinates of the maximum = 3

y=sin(x-45)+c

y=sin(x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =0, π, 2 π, 3 π…

y=sin(x-45)-2y-coordinates of the minimum= -3y-coordinates of the maximum = -1

y=sin(x-45)+c

y=sin(x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =0, π, 2 π, 3 π…

y=sin(x-45)-2y-coordinates of the minimum= -1y-coordinates of the maximum = 1

y=sin(x-45)+2.5y-coordinates of the minimum= 1.5y-coordinates of the maximum = 3.5

y=sin(x-45)+c

Whether c is positive, negative or a non-integer value, the value of c is the value that the graph moves up or down by. If the value of c is positive the graph moves down, if it is negative the graph moves up.

y=sin(x-d)

y=sin(x-2)

y=sin(x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =0, π, 2 π, 3 π…

y=sin(x-d)

y=sin(x+2)

y=sin(x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =0, π, 2 π, 3 π…

y=sin(x-d)

y=sin(x-1.3)

y=sin(x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =0, π, 2 π, 3 π…

y=cos(x)

y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts = - π /2, π /2, 3π/2, 5π/2…

y=acos(x)

y=cos(x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =- π /2, π /2, 3π/2, 5π/2…

y=2cos(x)y-coordinates of the minimum= -2y-coordinates of the maximum = 2x-intercepts =- π /2, π /2, 3π/2, 5π/2…

y=3cos(x)y-coordinates of the minimum= -3y-coordinates of the maximum = 3x-intercepts =- π /2, π /2, 3π/2, 5π/2…

y=acos(x)

y=cos(x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =- π /2, π /2, 3π/2, 5π/2…

y=-2cos(x)y-coordinates of the minimum= -2y-coordinates of the maximum = 2x-intercepts =- π /2, π /2, 3π/2, 5π/2…

y=-4cos(x)y-coordinates of the minimum= -3y-coordinates of the maximum = 3x-intercepts =- π /2, π /2, 3π/2, 5π/2…

y=acos(x)

y=sin(x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =0, π, 2 π, 3 π…

y=1.3cos(x)y-coordinates of the minimum= -1.3y-coordinates of the maximum = 1.3x-intercepts =- π /2, π /2, 3π/2, 5π/2…

y=3.4cos(x)y-coordinates of the minimum= -3.4y-coordinates of the maximum = 3.4x-intercepts =- π /2, π /2, 3π/2, 5π/2…

y=cos(x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =- π /2, π /2, 3π/2, 5π/2…

y=acos(x)

→ When a is positive, the graph is stretched in the y-axis by the value of a.

→ When a is negative, the graph is flipped in the x-axis and stretched in the y-axis by the value of a.

→ When a is a non-integer value, the graph is stretched in the yaxis by the value of a. If it is also negative, the graph is flipped in the x-axis.

y=cos(bx)

y=sin(x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =0, π, 2 π, 3 π…

y=cos(2x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =0, 1/3π, 2/3π, π, 4/3 π, 5/3 π…

y=cos(3x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =0, 1/4 π, 2/4 π, 3/4 π, π…

y=cos(x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =- π /2, π /2, 3π/2, 5π/2…

y=cos(bx)

y=sin(x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =0, π, 2 π, 3 π…

y=cos(-2x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =1/3π, 2/3π, 4/3 π, 5/3 π…

y=cos(-4x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =1/5π, 2/5π, 3/5π, 4/5π, 6/5 π

y=cos(x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =- π /2, π /2, 3π/2, 5π/2…

y=COS(bx)

y=sin(x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =0, π, 2 π, 3 π…

y=cos(1.3x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =

y=cos(3.4x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =

y=cos(x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =- π /2, π /2, 3π/2, 5π/2…

y=cos(bx)

Whether b is positive, negative or a non-integer value it makes the coordinates of the x-intercepts be divided by the value of b.

y=cos(x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =- π /2, π /2, 3π/2, 5π/2…y=cos(x-45)+c

y=cos(x-45)y-coordinates of the minimum= -1y-coordinates of the maximum = 1

y=cos(x-45)+c

y=cos(x-45)+2y-coordinates of the minimum= 1y-coordinates of the maximum = 3

y=cos(x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =- π /2, π /2, 3π/2, 5π/2…

y=cos(x-45)+c

y=cos(x-45)-2y-coordinates of the minimum= -3y-coordinates of the maximum = -1

y=cos(x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =- π /2, π /2, 3π/2, 5π/2…

y=cos(x-45)+c

y=cos(x-45)+1.3y-coordinates of the minimum= 0.3y-coordinates of the maximum = 2.3

y=cos(x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =- π /2, π /2, 3π/2, 5π/2…

y=cos(x-45)+c

Whether c is positive, negative or a non-integer value, the value of c is the value that the graph moves up or down by. If the value of c is positive the graph moves down, if it is negative the graph moves up.

y=cos(x-d)

y=cos(x-2)

y=cos(x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =- π /2, π /2, 3π/2, 5π/2…

y=cos(x-d)

y=cos(x+2)

y=cos(x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =- π /2, π /2, 3π/2, 5π/2…

y=cos(x-d)

y=cos(x-1.3)

y=cos(x)y-coordinates of the minimum= -1y-coordinates of the maximum = 1x-intercepts =- π /2, π /2, 3π/2, 5π/2…

Very good work again Grace, so finish it off by stating what kind of “transformation” effect “d” has, is it:• Rotation (how many degrees & clock or anti-clock?) or Reflection (in what mirror line/axes?)?• Horizontal or vertical stretch and by what scale factor? • Horizontal or vertical translation and by what vector?