Find the value of the following integrals for all possible values of n and m.
a)
b)
c)
where P represents the fundamental period of the trigonometric functions.
Find the value of the following integrals for all possible values of n and m. a)...
Find the indefinite integrals for the following:
a.)
b.)
c.)
d.)
(the exponent is
)
Please show work, thanks!
We were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this image
Let X1, X2, ..., Xn be a random sample of size n from the
distribution with probability density function
To answer this question, enter you answer as a formula. In
addition to the usual guidelines, two more instructions for this
problem only : write
as single variable p and
as m. and these can be used as inputs of functions as usual
variables e.g log(p), m^2, exp(m) etc. Remember p represents the
product of
s only, but will not work...
Consider the following hypotheses:
H0: μ ≤ 270
HA: μ > 270
Find the p-value for this test based on the following
sample information. (You may find it useful to reference
the appropriate table: z table or t
table)
a. x¯x¯ = 277; s = 23; n =
18
0.025
p-value < 0.05
0.01
p-value < 0.025
p-value 0.10
0.05
p-value < 0.10
p-value < 0.01
b. x¯x¯ = 277; s = 23; n =
36
p-value
0.10
0.025
p-value <...
Consider the following hypotheses: H0: μ ≤ 610 HA: μ > 610
Find the p-value for this test based on the following sample
information. (You may find it useful to reference the appropriate
table: z table or t table)
a. x¯ = 618; s = 24; n = 26
p-value 0.10
0.05p-value
< 0.10
0.01
p-value < 0.025
p-value < 0.01
0.025 p-value < 0.05
b. x¯ = 618; s = 24; n = 52
0.025p-value
< 0.05
p-value
0.10...
A signal is given by the following equation: Identify the fundamental frequency (in Hz) of this signal and enter the harmonic numbers that are present. (harmonic1,2and3) Notes: - If fis the fundamental frequency of the signal and kare the harmonics, the harmonic numbers are the values of k . - Enter only whole numbers (integers) into the fields (no units). r(t) = 2 + 1.75 cos(12nt--) + cos(18nt + 쯩)-cos(42mt) We were unable to transcribe this imageWe were unable to...
find a closed form solution to recurrence relation xn
= n for 0
n < m and xn = xn-m+ 1 for n
m discrete math
We were unable to transcribe this imageWe were unable to transcribe this image
Suppose that
is a bounded function with following Lower and Upper
Integrals:
and
a) Prove that for every
, there exists a partition
of
such that the difference between the upper and lower sums
satisfies
.
b) Furthermore, does there have to be a subdivision such that
. Either prove it or find a counterexample and show to the
contrary.
We were unable to transcribe this imageWe were unable to transcribe this image2014 We were unable to transcribe this...
An urn contains N balls each labeled with a unique number 1, 2, ..., N. M of these balls are colored yellow and the remaining N-M are blue, 0<=M<=N. These facts represent our state of knowledge, or information A. Yi yellow ball on ith draw and Bi blue ball on ith draw. For the ith draw it must be that p[Yi | A] + p[Bi | A] = 1. Find the probability for drawing a yellow ball on the first...
Create a Matlab code to solve the two following equations for a pendulum: F = 10 m = 1 ks = 1 (m+M)x'' - ml'' cos + ml'' sin = F -x'' cos + l'' - g sin = 0 We were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to...
Please help solve this, using the equation
to get through the problem.
Additional information:
where the initial position
, the initial speed
The above differential equation can also be written as:
If
, there is light damping where the solution has the form ( where r
and w are two positive constants)
or
If
there is heavy damping where,
where
and
are two positive constants
If
there is critical damping where,
where r is a positive constant
d'y dy ma...