You can specify a list of inputs for the constant c (or whatever label you give it)
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Expression 16: "y" left parenthesis, "x" , right parenthesis equals 5 eighths "x" to the 5th power plus "c" times "x" to the negative 3rd power for "c" equals left bracket, negative 10 , negative 5 , 0 , 5 , 10 , right bracketyx=58x5+c·x−3forc=−10,−5,0,5,10
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Using the braces { ... } lets you restrict the input range.
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Expression 18: "f" left parenthesis, "t" , right parenthesis equals tangent left parenthesis, "t" cubed plus "A" , right parenthesis for "A" equals left bracket, 0 , 0.5 , 1 , 2 , 3 , 4 , right bracket left brace, negative 1.3 less than "t" less than 1.3 , right braceft=tant3+AforA=0,0.5,1,2,3,4−1.3<t<1.3
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Expression 19: "y" left parenthesis, "t" , right parenthesis equals tangent left parenthesis, "t" cubed plus "B" , right parenthesis left brace, negative 1.3 less than "t" less than 1.3 , right braceyt=tant3+B−1.3<t<1.3
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Expression 20: "B" equals 1B=1
negative 10−10
1010
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The order you put those last two things in doesn't matter.
Click the circle on the left of the function to show it on the graph.
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Expression 22: "f" left parenthesis, "t" , right parenthesis equals tangent left parenthesis, "t" cubed plus "A" , right parenthesis left brace, negative 2 less than "t" less than 2 , right brace for "A" equals left bracket, 1 , 2 , 3 , 4 , right bracketft=tant3+A−2<t<2forA=1,2,3,4
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You can also add points and change the colors using the "gear" up above.
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A point. left parenthesis, 2 , 7 , right parenthesis2,7
