HINT: THE ANSWER IS NOT 96.537 or 96.415!!! Please solve part a. Thank You for the help. 12 of 12I Review | ConstantsPart ATo five significant figures, what accelerating potential difference AV is required to detect the ion O ? The masses of the atoms are shown in the table; the mass of the missing electron isless than 0.001 u and is not relevant at this level of precision. Use the following constants: 1 u = 1.6605 x 10-27 kg, e =1.6022 x 10-19 C.Atomic masses12C12.000 u14N14.003 u16015.995 uExpress your answer to five significant figures and include the appropriate units.• View Available Hint(s)HAAVo; = 96.537VSubmitPrevious AnswersX Incorrect; Try Again; 11 attempts remainingPart BWhat accelerating potential difference AV is required to detect N, ?Express your answer to five significant figures and include the appropriate units.» View Available Hint(s) (Figure 1) shows a mass spectrometer, an analytical instrument used to identifythe various molecules in a sample by measuring their charge-to-mass ratioq/m. The sample is ionized, the positive ions are accelerated (starting fromrest) through a potential difference AV, and they then enter a region of uniformmagnetic field. The field bends the ions into circular trajectories, but after justhalf a circle they either strike the wall or pass through a small opening to adetector. As the accelerating voltage is slowly increased, different ions reachthe detector and are measured. Consider a mass spectrometer with a200.00 mT magnetic field and an 8.0000 cm spacing between the entranceand exit holes.Figure1 of 1AVDetector

All charged particles, upon entering the magnetic fields, trace curved trajectories when they're…

(Figure 1) shows a mass spectrometer, an analytical instrument used to identify the various molecules in a sample by measuring their charge-to-mass ratio q/m. The sample is ionized, the positive ions are accelerated (starting from rest) through a potential difference AV, and they then enter a region of uniform magnetic field. The field bends the ions into circular trajectories, but after just half a circle they either strike the wall or pass through a small opening to a detector. As the accelerating voltage is slowly increased, different ions reach the detector and are measured. Consider a mass spectrometer with a 200.00 mT magnetic field and an 8.0000 cm spacing between the entrance and exit holes.

(Figure 1) shows a mass spectrometer, an analytical instrument used to identify the various molecules in a sample by measuring their charge-to-mass ratio q/m. The sample is ionized, the positive ions are accelerated (starting from rest) through a potential difference AV, and they then enter a region of uniform magnetic field. The field bends the ions into circular trajectories, but after just half a circle they either strike the wall or pass through a small opening to a detector. As the accelerating voltage is slowly increased, different ions reach the detector and are measured. Consider a mass spectrometer with a 200.00 mT magnetic field and an 8.0000 cm spacing between the entrance and exit holes.

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Question

HINT: THE ANSWER IS NOT 96.537 or 96.415!!! Please solve part a. Thank You for the help.

12 of 12
I Review | Constants
Part A
To five significant figures, what accelerating potential difference AV is required to detect the ion O ? The masses of the atoms are shown in the table; the mass of the missing electron is
less than 0.001 u and is not relevant at this level of precision. Use the following constants: 1 u = 1.6605 x 10-27 kg, e =1.6022 x 10-19 C.
Atomic masses
12C
12.000 u
14N
14.003 u
160
15.995 u
Express your answer to five significant figures and include the appropriate units.
• View Available Hint(s)
HA
AVo; = 96.537
V
Submit
Previous Answers
X Incorrect; Try Again; 11 attempts remaining
Part B
What accelerating potential difference AV is required to detect N, ?
Express your answer to five significant figures and include the appropriate units.
» View Available Hint(s)

(Figure 1) shows a mass spectrometer, an analytical instrument used to identify
the various molecules in a sample by measuring their charge-to-mass ratio
q/m. The sample is ionized, the positive ions are accelerated (starting from
rest) through a potential difference AV, and they then enter a region of uniform
magnetic field. The field bends the ions into circular trajectories, but after just
half a circle they either strike the wall or pass through a small opening to a
detector. As the accelerating voltage is slowly increased, different ions reach
the detector and are measured. Consider a mass spectrometer with a
200.00 mT magnetic field and an 8.0000 cm spacing between the entrance
and exit holes.
Figure
1 of 1
AV
Detector

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