An Iron-Nickel sample from a meteorite was placed into a velocity selector and mass spectrometer. Experimenters expect 3 primary isotopes: 56Fe, 58Ni, & 60Ni. Positive ions are accelerated by an applied potential (ΔV) of 3300 Volts which is the same potential difference used to create the electric field in the velocity selector, where d is 1.1 cm.
Need 3 and 4.
An Iron-Nickel sample from a meteorite was placed into a velocity selector and mass spectrometer. Experimenters...
AV An Iron-Nickel sample from a meteorite was placed into a velocity selector and mass spectrometer. Experimenters expect 3 primary isotopes: 56Fe, 58Ni, & boni. Positive ions are accelerated by an applied potential (AV) of 3300 Volts which is the same potential difference used to create the electric field in the velocity selector, where d is 1.1 cm. 1. On the figure provided, in the velocity selector region, (A) draw the direction of the electric field. (B) Draw the necessary...
What does in sub mean?? An Iron-Nickel sample from a meteorite was placed into a velocity selector and mass spectrometer. Experimenters expect 3 primary isotopes: 56Fe, 58Ni, & 60Ni. Positive ions are accelerated by an applied potential (AV) of 3300 Volts which is the same potential difference used to create the electric field in the velocity selector, where d is 1.1 cm. 1. On the figure provided, in the velocity selector region, (A) draw the direction of the electric field....
Assume our velocity selector is a bit leaky and lets the other 2 isotopes through to the mass spectrometer. 3. What is the spacing between the isotopes when they strike the detectors? Just 3 and 4 An Iron-Nickel sample from a meteorite was placed into a velocity selector and mass spectrometer. Experimenters expect 3 primary isotopes: 56Fe, 58Ni, & 60Ni. Positive ions are accelerated by an applied potential (AV) of 3300 Volts which is the same potential difference used to...
Assume our velocity selector is a bit leaky and lets the other 2 isotopes through to the mass spectrometer. JUST 3 AND 4 An Iron-Nickel sample from a meteorite was placed into a velocity selector and mass spectrometer. Experimenters expect 3 primary isotopes: 56Fe, 58Ni, & 60Ni. Positive ions are accelerated by an applied potential (AV) of 3300 Volts which is the same potential difference used to create the electric field in the velocity selector, where d is 1.1 cm....
The velocity selector in in a mass spectrometer has a uniform 0.0506 T magnetic field oriented in the negative y direction and a uniform 294 kV/m electric field oriented in the positive z direction. What is the kinetic energy (in electron volts) of the electron that will pass through this velocity selector in the +x direction undeflected?
In the Bainbridge mass spectrometer (Figure 1) , the magnetic-field magnitude in the velocity selector is 0.510 T , and ions having a speed of 1.82×106m/s pass through undeflected. A) What is the electric-field magnitude in the velocity selector? b) If the separation of the plates is 5.20mm, what is the potential difference between the plates? Figure 1of 1 ㄧㄨㄨㄨ
The velocity selector in in a mass spectrometer consists of a uniform magnetic field oriented at 90 degrees to a uniform electric field so that a charge particle entering the region perpendicular to both fields will experience an electric force and a magnetic force that are oppositely directed. If the uniform magnetic field has a magnitude of 11.2 mT, then calculate the magnitude of the electric field that will cause a proton entering the velocity selector at 16.1 km/s to...
Using magnetic and electric fields, you want to create a spectrometer to sort isotopes of hydrogen ions. A stream of 1H, 2 H+, and > H+ are accelerated to 2.00x105 m/s and launched into a velocity selector in a region where you can establish a uniform magnetic field with a strength of 240 mt. What electric field will you need to see that only ions with this speed make it into the spectrometer? How far away from the entrance to...
Tipler6 26.P.042. Before entering a mass spectrometer, ions pass through a velocity selector consisting of parallel plates separated by 1.5 mm and having a potential difference of 150 V. The magnetic field between the plates is 0.42 T. The magnetic field in the mass spectrometer is 1.2 T. (a) Find the speed of the ions entering the mass spectrometer. ___ m/s (b) Find the difference in the diameters of the orbits of singly ionized 238U and 235U. (The mass of...
The figure below shows the schematic for a mass spectrometer which consists of a velocity selector and a deflection chamber. The magnitude of the magnetic field in both the velocity selector and the deflection chamber is 0.0110 T, and the electric field between the plates of the velocity selector is 1600 V/m. If a singly charged ion with a mass of 6.70 times 10^-27 kg travels through the velocity selector and into the deflection chamber, determine the radius of its...