If it were any other power other than zero, then we'd have to know what 'x' is.
But anything to the zero power is ' 1 '.
Any value to the power of 'zero' is equal; to '1' So 7^0 = 1 Similarly 7,000,000^0 = 1 Similarly 0.000007^0 = 1
the answer is 0. 0 raised to to any power is 0. When you try to solve these types of problems think of the power the number of times you multiply the base by. So, 0 to the first power is written out as 0 so the answer is 0.
1 In fact any number raised to the power 0 is 1.
for something to be an equation it has to be equal to something.2x+3=0 would be a linear equation (with x=-1.5) 2x+3+0 is just a series of terms.
Let the required number be equal to x According to the given equation 2/3 of x= 8(-x) 2x/3= -8x 2x/3+(-8x)=0 2x/3-8x=0 2x/3-24x/3=0 -21x/3=0 -21x=0 x=0/-21 x=0 Hence the number would be 0.
Any number raised to the power 0 equals 1.
Any number raised to the power 0 is equal to 1. The exception is 0 to the power 0, which is not defined.
Do you mean "What is -10 to the power 0 equal to?" Any number raised to 0 evaluates to 1
Because any number raised to the power of 0 is always equal to 1
x2+2x+x0 = 0 Any integer raised to the power of 0 is always 1 so the equation can be arranged as: x2+2x+1 = 0 When factorised: (x+1)(x+1) = 0 Therefore: x = -1 and also x = -1 They both have equal roots because the discriminant b2-4ac (22-4*1*1) = 0
4
e2x=ex^2 basically means that x2=2x, in which case x2-2x=0, x = 0, 2. I don't think that's what the question meant. It could mean: e2x=(ex)2 . Which comes from one of the rules of exponents. Basically, look at it this way: Take the natural log of both sides: ln e2x= ln(ex)2 From rules of logs: (2x) ln e = (2) ln ex 2x ln e = (2) (x) ln e 2x = (2)(x)
Anything raised to the power of zero is 1 except 0 itself and so 8^0 = 1
3x - 3x -1 + 2x -1 = 0 0 - 1 + 2x - 1 = 0 2x - 2 = 0 2x = 2 x = 1
Both 30 and 20 are equal to 1. Any real number raised to the zero power is 1.
Anything (except zero) raised to the zero power is equal to one.
if you times something buy it's self 0 times it is 1. Try it.