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There are several types of special exponents There are several types of special exponents negative exponents x-2 There are several types of special exponents fractional exponents negative exponents x1/2 x-2 There are several types of special exponents fractional exponents zero exponents negative exponents x1/2 x0 x-2 This lesson will teach about negative There are several types of special exponents and zero exponents fractional exponents zero exponents negative exponents x1/2 x0 x-2 Zero exponents are easy Zero exponents are easy anything to the zero power Zero exponents are easy anything to the zero power x0 Zero exponents are easy anything to the zero power is one x0 Zero exponents are easy anything to the zero power is one x0=1 Zero exponents are easy 10=1 anything to the zero power is one x0=1 Zero exponents are easy 10=1 anything to the zero power 20=1 is one x0=1 Zero exponents are easy 10=1 anything to the zero power 20=1 is one x0=1 1000=1 Zero exponents are easy 10=1 anything to the zero power 20=1 is one x0=1 1000=1 Solve 160=1 Zero exponents are easy 10=1 anything to the zero power 20=1 is one x0=1 1000=1 40=1 Solve 160=1 Zero exponents are easy 10=1 anything to the zero power 20=1 is one x0=1 1000=1 40=1 160=1 Solve 500=1 Zero exponents are easy 10=1 anything to the zero power 20=1 is one x0=1 1000=1 40=1 160=1 1450=1 500=1 Zero exponents are easy 10=1 anything to the zero power 20=1 is one x0=1 1000=1 40=1 30=1 160=1 1450=1 500=1 Zero exponents are easy 10=1 (-100)0=1 anything to the zero power 20=1 is one x0=1 1000=1 40=1 30=1 160=1 1450=1 500=1 Zero exponents are easy 10=1 (-100)0=1 anything to the zero power 20=1 is one x0=1 10000=1 1000=1 Solve 40=1 30=1 160=1 1450=1 500=1 What is the correct exponent? -2 0 1 10 100x=1 Negative exponents are equally simple... Negative exponents are equally simple... if a negative exponent is in the numerator Negative exponents are equally simple... if a negative exponent is in the numerator 1 x-2 Negative exponents are equally simple... if a negative exponent is in the numerator 1 x-2 then switch it to the denominator and change the sign Negative exponents are equally simple... if a negative exponent is in the numerator 1 x-2 = then switch it to the denominator x2 1 and change the sign Negative exponents are equally simple... if a negative exponent is in the numerator 1 x-2 if a negative exponent is in the denominator = then switch it to the denominator x2 1 and change the sign Negative exponents are equally simple... if a negative exponent is in the numerator x-2 1 x-2 if a negative exponent is in the denominator 1 = then switch it to the denominator x2 1 and change the sign Negative exponents are equally simple... if a negative exponent is in the numerator x-2 1 x-2 if a negative exponent is in the denominator 1 = then switch it to the denominator x2 1 then switch to the numerator and change the sign and change the sign Negative exponents are equally simple... if a negative exponent is in the numerator x-2 1 x-2 if a negative exponent is in the denominator 1 = = then switch it to the denominator x2 1 x2 1 then switch to the numerator and change the sign and change the sign So that means when given a problem like this: So that means when given a problem like this: x-1y4z-2 a2b-3c4 Like this So that means when given a problem like this: Switch the variables with a negative exponent x-1y4z-2 a2b-3c4 So that means when given a problem like this: Switch the variables with a negative exponent a stays where its at x-1y4z-2 a2b-3c4 = So that means when given a problem like this: Switch the variables with a negative exponent a stays where its at x-1y4z-2 a2b-3c4 = a2 So that means when given a problem like this: Switch the variables with a negative exponent a stays where its at b moves down x-1y4z-2 a2b-3c4 = a2 b3 So that means when given a problem like this: Switch the variables with a negative exponent a stays where its at b moves down c stays x-1y4z-2 a2b-3c4 = a2c4 b3 So that means when given a problem like this: Switch the variables with a negative exponent a stays where its at b moves down c stays x moves x-1y4z-2 a2b-3c4 = a2c4x1 b3 So that means when given a problem like this: Switch the variables with a negative exponent a stays where its at b moves down c stays x moves y stays x-1y4z-2 a2b-3c4 = a2c4x1 b3y4 So that means when given a problem like this: Switch the variables with a negative exponent a stays where its at b moves down c stays x moves y stays z moves x-1y4z-2 a2b-3c4 = a2c4x1z2 b3y4 So that means when given a problem like this: Switch the variables with a negative exponent a stays where its at b moves down c stays x moves y stays z moves x-1y4z-2 a2b-3c4 = a2c4x1z2 b3y4 the answer Which variable will change its' location a b x y a-2b3 x3y Which variable will change its' location a b x y x2b3 a3y-3 Which variable will change its' location a b x y b2y-1 ax2 |