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3 years ago

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Derive linear density expressions for FCC [100] and [111] directions in terms of the atomic radius R and (b) compute linear dens

ity values for these two directions for silver.

1 answer:

lorasvet [3.4K]3 years ago

3 0

Answer:

Step-by-step explanation:

Please see the attachment for full step by step solution

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Find the area of A parallelogram with a base of 12 inches and<br> height of 5 inches.

k0ka [10]

Step-by-step explanation:

Area=Base×Height

=12×5

=60

7 0

3 years ago

2. Divide using the synthetic division.<br> --7| 1 8 -49 -392

Usimov [2.4K]

Answer: goole

Step-by-step explanation:

49-392 +7/ 18

6 0

3 years ago

Evaluate each of the following. (a) P(11,5) (b) C(11,5) (a) P(11,5) = (Simplify your answer.) (b) C(11,5) = (Simplify your answe

Hunter-Best [27]

<h2>Answer:</h2>

(a) P(11,5)= 55440

(b) C(11,5)=462

<h2>Step-by-step explanation:</h2>

We know that the permutation is the number of ways of arranging r items out of a total of n items and is given by:

$P(n,r)=\dfrac{n!}{(n-r)!}$

and the combination is the number of ways of choosing r items out of a total of n items and is given by:

$C(n,r)=\dfrac{n!}{r!\times (n-r)!}$

(a)

P(11,5)

$P(11,5)=\dfrac{11!}{(11-5)!}\\\\P(11,5)=\dfrac{11!}{6!}\\\\P(11,5)=\dfrac{11\times 10\times 9\times 8\times 7\times 6!}{6!}\\\\P(11,5)=11\times 10\times 9\times 8\times 7\\\\P(11,5)=55440$

(b)

C(11,5)

$C(11,5)=\dfrac{11!}{5!\times (11-5)!}\\\\C(11,5)=\dfrac{11!}{5!\times 6!}\\\\C(11,5)=\dfrac{11\times 10\times 9\times 8\times 7\times 6!}{5\times 4\times 3\times 2\times 1\times 6!}\\\\C(11,5)=462$

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3 years ago

2X^2 - 9x + 10 . solve by factoring area model (show work)

Anastaziya [24]

Step-by-step explanation:

2x²_4x_5x+10

2x(x-2)-5(x-2)

(2x-5)(x-2)

6 0

3 years ago

6 x 10^-2 is how many times a large as 2 x 10^-8?

Diano4ka-milaya [45]

Answer:

the number $6\,\,\,10^{-2}$ is three million times larger than $2\,\,\,10^{-8}$

Step-by-step explanation:

To answer this, just do the quotient of the first one over the second one, and use the rules for quotient of exponential expressions of the same base:

$\frac{6\,\,\,10^{-2}}{2\,\,\,10^{-8}} =\frac{6}{2} \,\frac{10^{-2}}{10^{-8}} =3\,\,\,10^{-2+8}=3\,\,\,10^6=3000000$

So the answer is: the number $6\,\,\,10^{-2}$ is three million times larger than $2\,\,\,10^{-8}$

3 0

3 years ago

Read 2 more answers