A cyclotron is used to produce a beam of high-energy deuterons that then collide with a target to produce radioactive isotopes for a medical procedure. Deuterons are nuclei of deuterium, an isotope of hydrogen, consisting of one neutron and one proton, with total mass 3.34
a) KE = 1/2 mv^2
5.90E6*1.6E-19 = 0.5*3.34E-27*v^2
v=2.38E7 m/s
b)
q v B = mv^2/r
r = m v/ q B
d = 2 r = 2 m v/q B = 2*3.34e-27*2.38E7/(1.6E-19*1.25)= 0.795 m
c)
I = q/t = N e/t
Not sure if that is A or uA, which is it?
if uA
N/t = I/e = 370E-6/1.6E-19= 2.31E15
if A
N/T = 370/1.6e-19 = 2.31E21
A cyclotron is used to produce a beam of high-energy deuterons that then collide with a...
A cyclotron is used to produce a beam of high-energy deuterons that then collide with a target to produce radioactive isotopes for a medical procedure. Deuterons are nuclei of deuterium, an isotope of hydrogen, consisting of one neutron and one proton, with total mass 3.34×10−27kg. The deuterons exit the cyclotron with a kinetic energy of 6.10 MeV . If the magnetic field inside the cyclotron is 1.25 T, what is the diameter of the deuterons' largest orbit, just before they...
Constants A cyclotron is used to produce a beam of high-energy deuterons that then collide with a target to produce radioactive isotopes for a medical procedure. Deuterons are nuclei of deuterium, an isotope of hydrogen consisting of one neutron and one proton, with total mass 3.34 x 10-27 kg. The deuterons exit the cyclotron wit a kinetic energy of 4.80 MeV You may want to review (Pages 778 - 783)
A cyclotron is used to produce a beam of high-energy deuterons that then collide with a target to produce radioactive isotopes for a medical procedure. Deuterons are nuclei of deuterium, an isotope of hydrogen, consisting of one neutron and one proton, with total mass 3.34×10−27kg. The deuterons exit the cyclotron with a kinetic energy of 5.90 MeV . What is the speed of the deuterons when they exit? if the magnetic field inside the cyclotron is 1.25 T, what is...
A cyclotron is used to produce a beam of high-energy deuterons that then collide with a target to produce radioactive isotopes for a medical procedure. Deuterons are nuclei of deuterium, an isotope of hydrogen, consisting of one neutron and one proton, with total mass 3.34×10−27kg. The deuterons exit the cyclotron with a kinetic energy of 6.40 MeV . A-What is the speed of the deuterons when they exit? B-If the magnetic field inside the cyclotron is 1.25 T, what is...
A cyclotron is used to produce a beam of high-energy deuterons that then collide with a target to produce radioactive isotopes for a medical procedure. Deuterons are nuclei of deuterium, an isotope of hydrogen, consisting of one neutron and one proton, with total mass 3.34×10−27kg. The deuterons exit the cyclotron with a kinetic energy of 6.20 MeV . a)What is the speed of the deuterons when they exit? Express your answer with the appropriate units. b)If the magnetic field inside...
Please help . Consider a Van de Graaff generator used to accelerate deuterons. The high voltage terminal is charged using an insulating belt that is 25 cm wide and travels at 25 m/s. Charge is sprayed onto the belt by the roller at the low voltage end and removed from the belt inside the high voltage terminal. The belt is given sufficient surface charge density at the low voltage end near the roller to induce an electric field of 1.0...
Select the keyword or phrase that will best complete each sentence. are high-energy particles that are emitted from a radioactive nucleus and contains two protons and two neutrons. Key terms: Alpha particles becquerel Beta particles Bq chain reaction сі are high-energy electrons emitted from a radioactive nucleus. The is an SI unit used to measure radioactivity. It equals one disintegration per second is is abbreviated Curie fission fusion is the process by which a neutron produced during fission bombards a...
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I attatched the given informarion. please let me know what
values you are using!
2. Consider the beta decay of tritium (eq 2). He + je (2) As you did in Question 1 for the neutron decay of H-2, determine the following for the beta decay of H-3: (a) the rest mass of the reactant (in kg, with six significant figures); (b) the sum of rest masses of the products (in kg, with six significant figures);...
In proton beam therapy, a beam of high-energy protons is used to kill cancerous cells in a tumor. In one system, the beam, which consists of protons with an energy of 2.8×10−11J, has a current of 84 nA. The protons in the beam mostly come to rest within the tumor. The radiologist has ordered a total dose corresponding to 3.2×10−3J of energy to be deposited in the tumor. Part A How many protons strike the tumor each second? Express your...
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