The rate constants for a reaction are found to be
k(-35 C) = 1.0 x 10-3 s-1
k(-25 C) = 2.0 x 10-3 s-1
At what temperature (in degrees C) will the rate constant be 3.79 x 10-3 s-1?
Use the Arrhenius equation. Use k1 and k2 along with T1 and T2 and solve for Ea, the activation energy which isn't given. Then re-evaluate the same equation using Ea from the first calculation and k1 with T1 or k2 with T2 along with k3 and T3. Solve for T3.
what is A then? the pre exponential factor?
Does it matter? Whatever it is for k1 and k2 it should (must?) be the same for k3 so whatever you use for the first calculation to determine Ea you would use the same constant for the k3 calculation. I would use 1 to make it simple.
i am getting different values for both K1 and K2.
i am using ln(k) = -Ea/(R*T) + ln(A)
lnA = 0
am i correct?
hey ss01 andDrBob222, what answers are you getting ?
@noodles i got q 1 ,2 5 , 9 , 10 &11
what about you?
At what temperature (in degrees C) will the rate constant be 3.79 x 10-3 s-1?
nope im stuck too
hello cn u help wid this pls ?
1)Which substance ( Ar or F2 ) has the higher boiling point?
Select the two most important reasons below to justify your choice should have the higher boiling point
*Both substances are nonpolar but the higher boiling includes hydrogen bonding *Both substances are nonpolar but the higher boiling is more polarizable
*The higher boiling substance is polar and the other is not
*The lower boiling substance is polar and the other is not
*The higher boiling substance has smaller vander Waals forces than the lower boiling
*The higher boiling substance has greater vander Waals forces than the lower boiling
*The higher boiling substance is ionic and the other is not
*The lower boiling substance is ionic and the other is not
*The higher boiling substance has hydrogen bonds and the other does not The lower boiling substance has hydrogen bonds and the other does not
*Both substances are ionic but the higher boiling has a larger cohesive energy
*Both substances are ionic but the lower boiling has a larger cohesive energy
*The higher boiling substance is ionic and the other is not.
*Ionic bonds are stronger than hydrogen bonds The lower boiling substance is ionic and the other is not.
*Ionic bonds are weaker than hydrogen bonds
*The higher boiling substance is ionic and the other is not.
*Ionic bonds are stronger than vander Waals forces
*The lower boiling substance is ionic and the other is not.
*Ionic bonds are weaker than vander Waals forces
2)Which substance ( HI or Xe ) has the higher boiling point?
Select the single most important reason below to justify your choice should have the higher boiling point
*Both substances are nonpolar but the higher boiling includes hydrogen bonding *Both substances are nonpolar but the higher boiling is more polarizable
*The higher boiling substance is polar and the other is not
*The lower boiling substance is polar and the other is not
*The higher boiling substance has smaller vander Waals forces than the lower boiling
*The higher boiling substance has greater vander Waals forces than the lower boiling
*The higher boiling substance is ionic and the other is not
*The lower boiling substance is ionic and the other is not
*The higher boiling substance has hydrogen bonds and the other does not *The lower boiling substance has hydrogen bonds and the other does not *Both substances are ionic but the higher boiling has a larger cohesive energy
*Both substances are ionic but the lower boiling has a larger cohesive energy
*The higher boiling substance is ionic and the other is not.
*Ionic bonds are stronger than hydrogen bonds
*The lower boiling substance is ionic and the other is not.
*Ionic bonds are weaker than hydrogen bonds
*The higher boiling substance is ionic and the other is not.
*Ionic bonds are stronger than vander Waals forces
*The lower boiling substance is ionic and the other is not.
*Ionic bonds are weaker than vander Waals forces
3)Which substance ( HBr or HF ) has the higher boiling point?
Select the single most important reason below to justify your choice should have the higher boiling point
*Both substances are nonpolar but the higher boiling includes hydrogen bonding *Both substances are nonpolar but the higher boiling is more polarizable
*The higher boiling substance is polar and the other is not
*The lower boiling substance is polar and the other is not
*The higher boiling substance has smaller vander Waals forces than the lower boiling
*The higher boiling substance has greater vander Waals forces than the lower boiling
*The higher boiling substance is ionic and the other is not
*The lower boiling substance is ionic and the other is not
*The higher boiling substance has hydrogen bonds and the other does not *The lower boiling substance has hydrogen bonds and the other does not *Both substances are ionic but the higher boiling has a larger cohesive energy
*Both substances are ionic but the lower boiling has a larger cohesive energy
*The higher boiling substance is ionic and the other is not.
*Ionic bonds are stronger than hydrogen bonds
*The lower boiling substance is ionic and the other is not.
*Ionic bonds are weaker than hydrogen bonds
*The higher boiling substance is ionic and the other is not.
*Ionic bonds are stronger than vander Waals forces
*The lower boiling substance is ionic and the other is not.
*Ionic bonds are weaker than vander Waals forces
did you got q3 & 4
@ orangutan i got this one it is easy
i need q3 and q4
no i dnt knw how to do it
cn u help with my question
any other question you got?
Ar
HI
HF
i ws able to figure that part easily
but what i need is the reasoning part( selecting the answer frm those options)
Hey guys! are you from 3.091x ?
I wasn't aware that there was a exam, and now it is due in few hours. Can you help me out? Much appreciated.
1)Determine the minimum potential that must be applied to a proton so that, on interaction with a hydrogen atom, it can excite the ground state electron to a state of n=2
and
2)Electron exhibiting a particle wavelength of 3.77 x 10-9 are emitted from hydrogen atoms after interaction with high energy photons. Assuming that the electrons in the hydrogen atom were in their ground state prior to interaction, determine the wavelength of the photon which generated the free electrons
for 3rd
The higher boiling substance has hydrogen bonds and the other does not
for 2d 3 optin
please tell any other ans you got?