Question

The particle wavelength of your lecturer in 3.091 on his way from the office to 10-250 (200 yards, 1 yard = 0.9144 m) has been determined to be 4.045 x 10 -36m. Taking his body weight to be 178 lbs (1 lb = 0.4536 kg), how long does it take him to get to his class? (answer in seconds)

Answer 1

wavelength = h/mv

Solve for v. Then
distance = rate x time
Substitute and solve for time.

Answer 2

pls the formula :)

Answer 3

thanks bob it worked!

Answer 4

can u help me KS

Answer 5

Hi, Menes. I an getting a very strange answer, which is incorrect. I must be using the wrong formula. Can you assist. Thanks.

Answer 6

Okay i am going to list down all the answers i got so far, please assist me in those which i left, if you have any:

1)156.675158119
2)5
3)90.1775147929
4)3s,3p,4s,3d,5s,5p,4f
10,2,14,6
5)-777
2.86e-10
6)8.88
dont know what part b is
7)O2, O2-2
8)tetrahedral,2,1,1,no,no
9)LiF don't know the reason
10)dont know part a
6.3e4
11)BN,AlAs, C,GaAs,GaP
12)
13)1.04e-3,p-type
14
15
16
17)Sn < Ge < Si
18
19) 6
20
21) B
22)1.8e-6
23)0.000258
24)
25
26
27
28)A is wrong, 3320, thermoplastic no covalent bonds
29
30
31
32)-0.0453
14.0453
33)4.77
10.76
1
34) hydrogen bond

Pls help me get the rest ones ASAP

Answer 7

Hi KS, Thanks. 6b) 3.22*10^5

Answer 8

You are welcome, thanks. I forgot to convert from KJ/mol to J/mol!

If you get anything else, pls do share on this page!

Answer 9

This is what I did with No. 12 Gallium Nitride.

A) I said No.
B) Wavelength = h*c/E_g = 6.626*10^-34 x 3*10^8/ 3.2 x 1.602 * 10^-19
= 0.388 *10^-6
This is a long shot. Maybe someone can pick up on it.

Answer 10

28 is A and D

Answer 11

thanks for 28 it's correct, as for 12, a is yes and b is 3.88e-7 I got them correct. Thanks again. feel free to brainstorm for other questions.

Answer 12

thanks KS, 31 is A

Answer 13

9. b) I think the answer is "Both molecules are ionic but the higher melting point has a larger cohesive energy". I ruled out some of the choices, LiF has a strong lattice energy. There are a lot of choices to choose from. This is what I think.

Answer 14

thanks kim, thanks hil, both your answers are right. Good going!

Answer 15

Hi. KS, I have a few more to go. Only one chance left. The graphs, the one on gold, x-ray tube. If you can fill in what you have. 9b is correct.21. is b and both glasses are weaker. Thanks

Answer 16

Thanks man, i am telling you all i know.. don't worry, if you get more than 60 overall you will receive your certificate (like i did in bio despite failing in the final, they don't mention your score in the certificate) I don't know anything about gold or the graphs yet. rest all leads brought me nowhere, will keep you posted if I find something, we have one more day.

Answer 17

I am also telling the answers of those i myself got wrong in my previous tries. 10 a is 2.42e-6 I got it wrong

Answer 18

try the stereoisomers one q27, looks pretty straightforward.

Answer 19

Hi guys , , the answer for 6 b) is 3.22e5 .

Answer 20

Yeah hi. Hil told us that

can someone solve the lead solubility and tell us the end result please? Here are the steps:
"This is simple Stoichiometry problem

Write down PbI2 -> Pb2+ + 2I-

Therefore

Ksp = [Pb2+][I-]^2

From the stoich you can derive that

Ksp = Cs(2Cs)^2 = 4Cs^3

Hence Cs = (Ksp/4) ^ 1/3

Then multiply the Molar Weight to get grams / Liter unit that you like

The second problem is common ion effect

First see is the added ion concentration more than or less than your Cs.

0.1 seems to be >>>> than Cs so common ion will happen

Ksp = Cs'(0.1)^2 = 0.01Cs'

Hence

Cs' = Ksp/0.01

Then just multiply by Molar weight again to convert to g/L units .

Note use the Molar Weight of PbI2 !!!!"

Answer 21

Alright i got it

24)0.558
0.000327

Answer 22

Can somebody pls help me with 27 , 29 and 30 ? I'd be really grateful ,

Thankyou

Answer 23

The answers for question 20 are

Structure A ,

Increase ,

Decrease .

Hope it helps . .

Answer 24

Hi, KS and Kim. Can you help me with No. 18 electrical measurements. Metal is two orders of magnitude higher at 836 degrees than at 499 degrees C. What is the energy formation for this metal. Thanks.

Answer 25

Hi, KS and Kim. Can you help me with No. 18 electrical measurements. Metal is two orders of magnitude higher at 836 degrees than at 499 degrees C. What is the energy formation for this metal. Thanks.

In(100)= H_v/8.314(1/772.15-1/1109.15)

Answer 26

On no. 25. I believe the highest density is Coesite. The others are tricky. Does anyone know. On 26, phases for Cu at 95wt.% I think is 2. At 15wt.% for Cu, I think is 2. For no. 29, I think linear structure has a larger molar volume. Branched structure a higher glass transition temperature. Part c is a toss up. I think it is branched because the greater amount of electrostatic interactions in the linear chain.

Answer 27

9a is LiF

Answer 28

pls help me with 27, 29 and 30 .

Answer 29

¹14 is 1.42e9,

2.36e-10

¹15 is 7.23e-11,
2.48e-11

¹16 is 6.89

¹20 is structure A, decrease, increase
Zm is wrong

¹29 is
branched structure,
branched structure,
Linear, because the branches can become more entangled than the linear chain.

Answer 30

Thanks Tania. I was making calculation errors and unsure of what they were looking for on the gold problem. I am having he same problem with no 18. I know the formula but getting the wrong answer. Temp = 836 C and 499 C

In(100)=H_v/8.314(1/772.15-1/1109.15)
Thanks.

Answer 31

Is the answer in number 29 correct? Linear is less viscous? isn't it suppose to be that branched be less viscous?

Answer 32

anyone up for 16?

Answer 33

Estimate the fraction of copper-rich phase at 900 C and an overall composition of 80 wt. % Cu. Have anyone solve that?

Answer 34

No.29 is correct. No. 18 can you check my math.

ln(100)=H_v/8.314*(1/772.15-1/1109.15)
ln(100)= H_v/8.314*0.000393
H_v= ln(100)*8.314/0.000393
H_v=ln(100)*21155.2163)
H_v=97423.37 joules
H_v=97.42337 kilo joules
Thanks.

Answer 35

^ seems to be correct make sure that your queestion says double magnitude and those values for temperature are all Kelvin

Answer 36

The answer for 18 is 92.8892497896....

Any help for No.30(K SURFACE ENERGY)?

Answer 37

I get that why linear is less viscous than Branched, i forgot that this question is about polymers and not short chain hydrocarbons...

Has anyone have answers for the Stereoisomer thing. I am very confused with it cause of the wording "number of possible stereoisomers"

Cause if that was the question then i would just use the formula 2^n where n is the number of chiral centers!!! For this the answer is 2^2 = 4

But then again if it was really asking number of possible optically different stereoisomers than the answer is only 3 since the other one is only similar to the other due to the plane of symmetry, i bet it was called a meso compound back in the tartaric acid lecture !!!

Answer 38

for K Surface Energy just do the following steps

Potassium is BBC hence 2 atom per lattice

Use Atomization Enthalphy from periodic table -- Divide this by avogadros -- to get per atom -- then remember that in BBC u have 8 surrounding atoms, -- so divide that value again by 8

That now will be energy / bond !!!

Then now calculate the area of the plane (110)

Just get lattice constant (a) using (2*Molar Volume / Avogadros) ^ 1/3

Theen solve the area using = a*sqrt(a)

Then now use your energy in Joules / bond and divide it by the area your calculated.

Answer 39

Alright i tried my theory and my understand about the meso compound situation is correct!!!

So if you see an axis of symmetry remove 1 from the 2^n formula

:)

Answer 40

No. 25 This is my answer: lowest density: cristobalite;

next lowest: tridymite; next lowest: beta quartz; next lowest: alpha quartz; highest density: coesite.
Please verify.

Answer 41

25) tridymite,crystobalite, beta-quartz, alpha-quartz,coesite.

cristobalite and liquid have approximately the same density

Answer 42

guys how about this question?

What is the minumum acceleration potential (V) that must be applied to a beam of free electrons for diffraction to occur in a crystal of niobium (Nb)? Express your answer in volts.

I've answered it by both 2663V and 2.7x10^3 it says im wrong. What is the ryt answer?

My Solution was Nb is BBC so i find highest plane (110) that gives max wavelength. since h+k+l = even.

Also lambda max = 2d

d = a/sqrt(h^2 + k^2 + l^2)
h = 1, k = 1, l =0 from (110)
a = (2 * Molar Volume / Avogadros )^2

Then substitute lamda max to

Volts = h*c/(e*lambda max) = 2667 Volts

I tried 2.7 x 10^3 volts i am still wrong :( any suggestions?

Answer 43

For above my a

Sorry Typo
a = (2 * Molar Volume / Avogadros)^ (1/3)

Answer 44

for Nb correct answer is 6.89 Volts.

Thanks alot ZM for posting the wrong answer. Next time please double check before sharing your results.
I tried the steps anonymous posted for K surface energy from bananas but its giving me the wrong result. Anyone else can give a try?

Answer 45

Im extremelyy sorry KM and others, i just checked. I was a mistake , I had no such intension . Just wannad to help.

The correct ans. for stereoisomers is

3 , 4 , 4 . I got it wrong .

Apologies. . :(
Thank you .

Answer 46

its alright your intentions were good i can see that so your apology is accepted. sorry for being harsh when all you did was trying to help. i met up with someone who got 94 in the finals and he was kind enouigh to give me some answers

26)1, 3, 0.57; 27 (successively)
27)3,4,4
30)9.3e-6

Thanks to all that helped! couldn't have made it this far without your help. Hope we can assist each other another time :)

Answer 47

:) , , agreed with KS , thanks alot everyone for the assistance ! God bless you all . .

Good Luck :) . .

Regards.

Answer 48

I had 2 wrong attempts of 18 can someone help me with this

Please
On the basis of electrical measurements, it is concluded that the equilibrium vacancy concentration in a given metal is two orders of magnitude higher at 849oC than at 492oC. What is the energy of vacancy formation (ΔHv in kJ/mol) for this metal?