You will have to rephrase the question. It does not make sense.
24n-0.5 = -2 24n = -2+0.5 24n = -1.5 Divide both sides by 24 to find the value of n: So the value of n is -1/16 or -0.0625
i did the n-telopeptide test
n=6
3n+8=a To find the value of n, you need to know the value of a.
n is the no. so therefore a n value is the numerical or fix value e.g. 7^n, where n is 2 your result will be 49.
2/7 = n/14
N 2
n = 3/2, n = 2
d = 2(n = 265782341)
n is the no. so therefore a n value is the numerical or fix value e.g. 7^n, where n is 2 your result will be 49.
To find the value of (n-2)^2 + n-1 when n=4, we simply substitute 4 for n in the expression: (n-2)^2 + n-1 When we do this, the expression becomes: (4-2)^2 + 4-1 Now we need to simplify the expression within the parentheses first. The expression within the parentheses is (4-2)^2, which means we need to subtract 2 from 4 and then square the result. So, we get: 2^2 Which equals 4. Now we can substitute this value back into the original expression to get: 4 + 4-1 Next, we simplify the expression 4-1, which equals 3. So, the expression becomes: 4 + 3 And we can simplify that further to get: 7 So, when n=4, the value of (n-2)^2 + n-1 is 7
Just write it as 2 to the power n. You can't simplify that, and you can only calculate a specific value if you know the value of n.
Put them is ascending order. Count them = n. If n is odd, calculate (n+1)/2 the median is the value of the [(n+1)/2]th number in the ordered list. If n is even, the median is the average of the [n/2]th and [n/2 + 1]th numbers.
The answer will depend on where n appears in the fraction.
3
m -5 n-3
Use Guassian quadrature with n=1 and n=2 and compare to exact value I=