Loading...
Collatz Tesseracts
Save Copy
Desmos Logo
Log In
Sign Up
Expression 61:
61
Expression 62: "y" equals ( ( 3 "n" plus 1 ) / ( 2 "n" ) )
y
=
(
(
3
n
+
1
)
/
(
2
n
)
)
equals
=
1.5 5 6 4 3 9 7 7 8 7 6
1
.
5
5
6
4
3
9
7
7
8
7
6
62
Expression 63: "y" equals ( ( 3 "n" plus 1 ) * ( 2 "n" ) )
y
=
(
(
3
n
+
1
)
*
(
2
n
)
)
equals
=
488.6 0 9 2 8 6
4
8
8
.
6
0
9
2
8
6
63
Expression 64: "y" equals ( ( 3 "n" plus 1 ) plus ( 2 "n" ) )
y
=
(
(
3
n
+
1
)
+
(
2
n
)
)
equals
=
45.2 9 5
4
5
.
2
9
5
64
Expression 65: "y" equals ( ( 3 "n" plus 1 ) minus ( 2 "n" ) )
y
=
(
(
3
n
+
1
)
−
(
2
n
)
)
equals
=
9.8 5 9
9
.
8
5
9
65
Expression 66:
66
Expression 67: "y" equals ( ( 2 / "n" ) * ( 3 "n" plus 1 ) )
y
=
(
(
2
/
n
)
*
(
3
n
+
1
)
)
equals
=
6.2 2 5 7 5 9 1 1 5 0 2
6
.
2
2
5
7
5
9
1
1
5
0
2
67
Expression 68: "y" equals ( ( 2 / "n" ) / ( 3 "n" plus 1 ) )
y
=
(
(
2
/
n
)
/
(
3
n
+
1
)
)
equals
=
0.0 0 8 1 8 6 5 0 0 1 6 4 0 6
0
.
0
0
8
1
8
6
5
0
0
1
6
4
0
6
68
Expression 69: "y" equals ( ( 2 / "n" ) plus ( 3 "n" plus 1 ) )
y
=
(
(
2
/
n
)
+
(
3
n
+
1
)
)
equals
=
27.8 0 2 7 5 9 1 1 5
2
7
.
8
0
2
7
5
9
1
1
5
69
Expression 70: "y" equals ( ( 2 / "n" ) minus ( 3 "n" plus 1 ) )
y
=
(
(
2
/
n
)
−
(
3
n
+
1
)
)
equals
=
negative 27.3 5 1 2 4 0 8 8 5
−
2
7
.
3
5
1
2
4
0
8
8
5
70
Expression 71:
71
Expression 72: "y" equals ( ( 2 / "n" plus 1 ) * ( 3 "n" ) )
y
=
(
(
2
/
n
+
1
)
*
(
3
n
)
)
equals
=
32.5 7 7
3
2
.
5
7
7
72
Expression 73: "y" equals ( ( 2 / "n" plus 1 ) / ( 3 "n" ) )
y
=
(
(
2
/
n
+
1
)
/
(
3
n
)
)
equals
=
0.0 4 6 1 2 1 0 4 8 8 4 0 1
0
.
0
4
6
1
2
1
0
4
8
8
4
0
1
73
Expression 74: "y" equals ( ( 2 / "n" plus 1 ) plus ( 3 "n" ) )
y
=
(
(
2
/
n
+
1
)
+
(
3
n
)
)
equals
=
27.8 0 2 7 5 9 1 1 5
2
7
.
8
0
2
7
5
9
1
1
5
74
Expression 75: "y" equals ( ( 2 / "n" plus 1 ) minus ( 3 "n" ) )
y
=
(
(
2
/
n
+
1
)
−
(
3
n
)
)
equals
=
negative 25.3 5 1 2 4 0 8 8 5
−
2
5
.
3
5
1
2
4
0
8
8
5
75
Expression 76:
76
Expression 77: "y" equals ( ( 3 "n" minus 1 ) / ( 2 "n" ) )
y
=
(
(
3
n
−
1
)
/
(
2
n
)
)
equals
=
1.4 4 3 5 6 0 2 2 1 2 4
1
.
4
4
3
5
6
0
2
2
1
2
4
77
Expression 78: "y" equals ( ( 3 "n" minus 1 ) * ( 2 "n" ) )
y
=
(
(
3
n
−
1
)
*
(
2
n
)
)
equals
=
453.1 7 3 2 8 6
4
5
3
.
1
7
3
2
8
6
78
Expression 79: "y" equals ( ( 3 "n" minus 1 ) plus ( 2 "n" ) )
y
=
(
(
3
n
−
1
)
+
(
2
n
)
)
equals
=
43.2 9 5
4
3
.
2
9
5
79
Expression 80: "y" equals ( ( 3 "n" minus 1 ) minus ( 2 "n" ) )
y
=
(
(
3
n
−
1
)
−
(
2
n
)
)
equals
=
7.8 5 9
7
.
8
5
9
80
Expression 81:
81
Expression 82: "y" equals ( ( 2 / "n" ) * ( 3 "n" minus 1 ) )
y
=
(
(
2
/
n
)
*
(
3
n
−
1
)
)
equals
=
5.7 7 4 2 4 0 8 8 4 9 8
5
.
7
7
4
2
4
0
8
8
4
9
8
82
Expression 83: "y" equals ( ( 2 / "n" ) / ( 3 "n" minus 1 ) )
y
=
(
(
2
/
n
)
/
(
3
n
−
1
)
)
equals
=
0.0 0 8 8 2 6 6 4 5 6 2 0 0 6
0
.
0
0
8
8
2
6
6
4
5
6
2
0
0
6
83
Expression 84: "y" equals ( ( 2 / "n" ) plus ( 3 "n" minus 1 ) )
y
=
(
(
2
/
n
)
+
(
3
n
−
1
)
)
equals
=
25.8 0 2 7 5 9 1 1 5
2
5
.
8
0
2
7
5
9
1
1
5
84
Expression 85: "y" equals ( ( 2 / "n" ) minus ( 3 "n" minus 1 ) )
y
=
(
(
2
/
n
)
−
(
3
n
−
1
)
)
equals
=
negative 25.3 5 1 2 4 0 8 8 5
−
2
5
.
3
5
1
2
4
0
8
8
5
85
Expression 86:
86
Expression 87: "y" equals ( ( 2 / "n" minus 1 ) * ( 3 "n" ) )
y
=
(
(
2
/
n
−
1
)
*
(
3
n
)
)
equals
=
negative 20.5 7 7
−
2
0
.
5
7
7
87
Expression 88: "y" equals ( ( 2 / "n" minus 1 ) / ( 3 "n" ) )
y
=
(
(
2
/
n
−
1
)
/
(
3
n
)
)
equals
=
negative 0.0 2 9 1 3 1 9 8 9 5 0 1 3
−
0
.
0
2
9
1
3
1
9
8
9
5
0
1
3
88
Expression 89: "y" equals ( ( 2 / "n" minus 1 ) plus ( 3 "n" ) )
y
=
(
(
2
/
n
−
1
)
+
(
3
n
)
)
equals
=
25.8 0 2 7 5 9 1 1 5
2
5
.
8
0
2
7
5
9
1
1
5
89
Expression 90: "y" equals ( ( 2 / "n" minus 1 ) minus ( 3 "n" ) )
y
=
(
(
2
/
n
−
1
)
−
(
3
n
)
)
equals
=
negative 27.3 5 1 2 4 0 8 8 5
−
2
7
.
3
5
1
2
4
0
8
8
5
90
Expression 91:
91
Expression 92: negative "y" equals ( ( 3 "n" plus 1 ) / ( 2 "n" ) )
−
y
=
(
(
3
n
+
1
)
/
(
2
n
)
)
92
Expression 93: negative "y" equals ( ( 3 "n" plus 1 ) * ( 2 "n" ) )
−
y
=
(
(
3
n
+
1
)
*
(
2
n
)
)
93
Expression 94: negative "y" equals ( ( 3 "n" plus 1 ) plus ( 2 "n" ) )
−
y
=
(
(
3
n
+
1
)
+
(
2
n
)
)
94
Expression 95: negative "y" equals ( ( 3 "n" plus 1 ) minus ( 2 "n" ) )
−
y
=
(
(
3
n
+
1
)
−
(
2
n
)
)
95
Expression 96:
96
Expression 97: negative "y" equals ( ( 2 / "n" ) * ( 3 "n" plus 1 ) )
−
y
=
(
(
2
/
n
)
*
(
3
n
+
1
)
)
97
Expression 98: negative "y" equals ( ( 2 / "n" ) / ( 3 "n" plus 1 ) )
−
y
=
(
(
2
/
n
)
/
(
3
n
+
1
)
)
98
Expression 99: negative "y" equals ( ( 2 / "n" ) plus ( 3 "n" plus 1 ) )
−
y
=
(
(
2
/
n
)
+
(
3
n
+
1
)
)
99
Expression 100: negative "y" equals ( ( 2 / "n" ) minus ( 3 "n" plus 1 ) )
−
y
=
(
(
2
/
n
)
−
(
3
n
+
1
)
)
100
Expression 101:
101
Expression 102: negative "y" equals ( ( 2 / "n" plus 1 ) * ( 3 "n" ) )
−
y
=
(
(
2
/
n
+
1
)
*
(
3
n
)
)
102
Expression 103: negative "y" equals ( ( 2 / "n" plus 1 ) / ( 3 "n" ) )
−
y
=
(
(
2
/
n
+
1
)
/
(
3
n
)
)
103
Expression 104: negative "y" equals ( ( 2 / "n" plus 1 ) plus ( 3 "n" ) )
−
y
=
(
(
2
/
n
+
1
)
+
(
3
n
)
)
104
Expression 105: negative "y" equals ( ( 2 / "n" plus 1 ) minus ( 3 "n" ) )
−
y
=
(
(
2
/
n
+
1
)
−
(
3
n
)
)
105
Expression 106:
106
Expression 107: negative "y" equals ( ( 3 "n" minus 1 ) / ( 2 "n" ) )
−
y
=
(
(
3
n
−
1
)
/
(
2
n
)
)
107
Expression 108: negative "y" equals ( ( 3 "n" minus 1 ) * ( 2 "n" ) )
−
y
=
(
(
3
n
−
1
)
*
(
2
n
)
)
108
Expression 109: negative "y" equals ( ( 3 "n" minus 1 ) plus ( 2 "n" ) )
−
y
=
(
(
3
n
−
1
)
+
(
2
n
)
)
109
Expression 110: negative "y" equals ( ( 3 "n" minus 1 ) minus ( 2 "n" ) )
−
y
=
(
(
3
n
−
1
)
−
(
2
n
)
)
110
Expression 111:
111
Expression 112: negative "y" equals ( ( 2 / "n" ) * ( 3 "n" minus 1 ) )
−
y
=
(
(
2
/
n
)
*
(
3
n
−
1
)
)
112
Expression 113: negative "y" equals ( ( 2 / "n" ) / ( 3 "n" minus 1 ) )
−
y
=
(
(
2
/
n
)
/
(
3
n
−
1
)
)
113
Expression 114: negative "y" equals ( ( 2 / "n" ) plus ( 3 "n" minus 1 ) )
−
y
=
(
(
2
/
n
)
+
(
3
n
−
1
)
)
114
Expression 115: negative "y" equals ( ( 2 / "n" ) minus ( 3 "n" minus 1 ) )
−
y
=
(
(
2
/
n
)
−
(
3
n
−
1
)
)
115
Expression 116:
116
Expression 117: negative "y" equals ( ( 2 / "n" minus 1 ) * ( 3 "n" ) )
−
y
=
(
(
2
/
n
−
1
)
*
(
3
n
)
)
117
Expression 118: negative "y" equals ( ( 2 / "n" minus 1 ) / ( 3 "n" ) )
−
y
=
(
(
2
/
n
−
1
)
/
(
3
n
)
)
118
Expression 119: negative "y" equals ( ( 2 / "n" minus 1 ) plus ( 3 "n" ) )
−
y
=
(
(
2
/
n
−
1
)
+
(
3
n
)
)
119
Expression 120: negative "y" equals ( ( 2 / "n" minus 1 ) minus ( 3 "n" ) )
−
y
=
(
(
2
/
n
−
1
)
−
(
3
n
)
)
120
Expression 121:
121
Expression 122:
122
123
powered by
powered by
"x"
x
"y"
y
"a" squared
a
2
"a" Superscript, "b" , Baseline
a
b
7
7
8
8
9
9
over
÷
functions
(
(
)
)
less than
<
greater than
>
4
4
5
5
6
6
times
×
| "a" |
|
a
|
,
,
less than or equal to
≤
greater than or equal to
≥
1
1
2
2
3
3
negative
−
A B C
StartRoot, , EndRoot
pi
π
0
0
.
.
equals
=
positive
+
Log In
or
Sign Up
to save your graphs!
New Blank Graph
Examples
Lines: Slope Intercept Form
example
Lines: Point Slope Form
example
Lines: Two Point Form
example
Parabolas: Standard Form
example
Parabolas: Vertex Form
example
Parabolas: Standard Form + Tangent
example
Trigonometry: Period and Amplitude
example
Trigonometry: Phase
example
Trigonometry: Wave Interference
example
Trigonometry: Unit Circle
example
Conic Sections: Circle
example
Conic Sections: Parabola and Focus
example
Conic Sections: Ellipse with Foci
example
Conic Sections: Hyperbola
example
Polar: Rose
example
Polar: Logarithmic Spiral
example
Polar: Limacon
example
Polar: Conic Sections
example
Parametric: Introduction
example
Parametric: Cycloid
example
Transformations: Translating a Function
example
Transformations: Scaling a Function
example
Transformations: Inverse of a Function
example
Statistics: Linear Regression
example
Statistics: Anscombe's Quartet
example
Statistics: 4th Order Polynomial
example
Lists: Family of sin Curves
example
Lists: Curve Stitching
example
Lists: Plotting a List of Points
example
Calculus: Derivatives
example
Calculus: Secant Line
example
Calculus: Tangent Line
example
Calculus: Taylor Expansion of sin(x)
example
Calculus: Integrals
example
Calculus: Integral with adjustable bounds
example
Calculus: Fundamental Theorem of Calculus
example
Terms of Service
|
Privacy Policy
