T to the fourth power is already fully simplified unless you have a value for "t."
1
81
104 = 10000
You can make it 4 to the 9th power and you will still get the same answer.
161/2 = 4
x to the power of 5 +x to the power of 4 -x-1
= 20^3
√ (16t) =√ 16*√ t = 4*√ t
10-4 = 1/104 = 0.0001
To calculate ( t ) raised to the power of ( n ) in base ( 4 ) (denoted as ( t^{n4} )), you first convert ( n ) to its base ( 4 ) representation. Then, evaluate ( t ) raised to the exponent that corresponds to this base ( 4 ) representation. Essentially, you would compute ( t^{n_0 \cdot 4^0 + n_1 \cdot 4^1 + n_2 \cdot 4^2 + \ldots} ), where ( n_0, n_1, n_2, \ldots ) are the digits of ( n ) in base ( 4 ). Finally, you can simplify the expression for the final result.
If you simplify the equation (s+t+s) the answer is 2s+t
2