Your question does not make sense.
The expression ( 13 \times 13 \times 13 ) can be written in exponential notation as ( 13^3 ). This indicates that the number 13 is multiplied by itself three times.
If x is one side of a square, x times x or x squared is the area of a square.
The expression (10 \times 10 \times 10) can be written in exponential form as (10^3). This indicates that 10 is multiplied by itself three times.
It has to be a stupid answer anyway
Its the square root of 2 times x Ambiguous. More clear is x times square root of 2
Integration for inverse tangent of square x
Assuming no parenthesis, perform the exponential operation first, then perform the multiplication. 16 x 22 = 16 x 4 = 64
The expression ( 13 \times 13 \times 13 ) can be written in exponential notation as ( 13^3 ). This indicates that the number 13 is multiplied by itself three times.
25 is 2 x 2 X 2 X 2x 2.
If x is one side of a square, x times x or x squared is the area of a square.
The square root of x can also be written as x^1/2. The cubic root of x is x^1/3, the fourth root x ^1/4, and so on.
The integration formulas covered in the second PUC syllabus primarily include basic integration techniques such as integration of power functions, trigonometric functions, exponential functions, and logarithmic functions. Key formulas include ∫ x^n dx = (x^(n+1))/(n+1) + C for n ≠ -1, ∫ sin(x) dx = -cos(x) + C, and ∫ e^x dx = e^x + C. Additionally, students learn about integration by substitution and integration by parts. Understanding these fundamental formulas is essential for solving various problems in calculus.
The expression (10 \times 10 \times 10) can be written in exponential form as (10^3). This indicates that 10 is multiplied by itself three times.
It has to be a stupid answer anyway
Its the square root of 2 times x Ambiguous. More clear is x times square root of 2
x4
No. 3X is multiple (3 x X) X3 is exponential (X x X x X)