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1. The trajectory shown represents the path of a molecule with a...
Submission due in Canvas: Tuesday, March 24, 2020, no later than 3:00 PM Name: A particle...
Submission due in Canvas: Tuesday, March 24, 2020, no later than 3:00 PM Name: A particle of charge magnitude 39el (that's 3 times the charge of an electron) and mass 12mp (that's 12 times the mass of a proton) enters a uniform magnetic field of 0.250 T. The particle enters the field traveling directly down, as shown. The magnetic field is directed out of the page. The particle is deflected in a semicircle, as shown in the diagram. - 0...
An alpha particle, which contains two protons and two neutrons (i.e., charge of +2e and mass...
An alpha particle, which contains two protons and two neutrons (i.e., charge of +2e and mass of 4m_p), is accelerated from rest through a potential difference of Delta V = -1000 V prior to entering a region of space that contains a uniform magnetic field of 1.00 mT into the page. Determine the speed of the particle as it enters the magnetic field region. Calculate the force in vector notation that the alpha particle experiences just after it enters the...
Figure 20.12 region of magnetic field 1 Path of the particle 1) In Figure 20.12, a...
Figure 20.12 region of magnetic field 1 Path of the particle 1) In Figure 20.12, a small particle of charge q =-1.9 x 10-6 C and mass m 3.1 x 10-12 kg has velocity vo 8.1 x 103 m/s as it enters a region of uniform magnetic field. The particle is observed to travel in the semicircular path shown, with radius R 5.0 cm. Calculate the (a) magnitude and (b) direction of the magnetic field in the region.
3. (a) Show that when a particle with mass m and charge q enters a magnetic...
3. (a) Show that when a particle with mass m and charge q enters a magnetic field having its velocity v perpendicular to the direction of the magnetic field B, it will perform a mv circular path of radius R- qB (b) Using the previous result find an expression for the period T of the circular motion. (c) A charged particle moves into a region of uniform magnetic field, goes through half a circle and then exits that region, as...
39.2 A beta^+ particle is moving at 19 500 m s^-1 parallel to the ground and...
39.2
A beta^+ particle is moving at 19 500 m s^-1 parallel to the ground and due east through a region of space in which there is a uniform 0.05 T magnetic field. If the magnetic field lines point upwards in the vertical direction, what is the direction and magnitude of the magnetic force on the beta^+ particle? In a region of space there is a uniform magnetic field of magnitude 0.25 m T pointing vertically straight down. If an...
A proton enters a uniform magnetic field and follows trajectory B. Adeuteron (same charge and twice...
A proton enters a uniform magnetic field and follows trajectory B. Adeuteron (same charge and twice the mass) enters the magnetic field in the same way and with the same velocity as the proton. Which of the following is the right trajectory for the deuteron? CITIXYXXX XX E XXX 107 PM AZ OO A charged particle moves into a region containing both an electric and magnetic field. Which of the statements below are true? A The particle cannot accelerate in...
Problems 6-7: Free Response Problems (5 points each) + RO X X X 6. Please look...
Problems 6-7: Free Response Problems (5 points each) + RO X X X 6. Please look to the diagram to the right. A uniform electric field E points toward the top of the page (in red) and exists over a distance d. Above that electric field region is a region of uniform iform magnetic field B, which is pointing into the page. The two fields do not overlap. A positive charge +q with mass m is released from rest at...
An antiproton is a particle with the same mass as a proton, but charge of an...
An antiproton is a particle with the same mass as a proton, but charge of an electron. An antiproton traveling with a speed of 2.0 × 107 m/s in the −y direction enters a region of uniform magnetic and electric fields. The magnetic field has magnitude 0.5 T oriented along the +x direction. What is the magnitude and direction of an electric field required for the antiproton to maintain a constant speed and direction?
A particle with a positive charge has an orbital path that is shown in the image...
A particle with a positive charge has an orbital path that is
shown in the image below. The magnetic field is directed out of the
page. What is the direction that the particle’s path is moving? Now
another negatively charged particle is moving with the same speed
and same magnitude charge as the first one. Show this new particles
path and its direction.
As shown in the figure, an electron is fired with a speed of 3.73 x 10...
As shown in the figure, an electron is fired with a speed of 3.73 x 10 m/s through a hole in one of the two parallel plates and into the region between the plates separated by a distance of 0.24 m. There is a magnetic field in the region between the plates and, as shown, it is directed into the plane of the page (perpendicular to the velocity of the electron). Determine the magnitude of the magnetic field so that...
Submission due in Canvas: Tuesday, March 24, 2020, no later than 3:00 PM Name: A particle of charge magnitude 39el (that's 3 times the charge of an electron) and mass 12mp (that's 12 times the mass of a proton) enters a uniform magnetic field of 0.250 T. The particle enters the field traveling directly down, as shown. The magnetic field is directed out of the page. The particle is deflected in a semicircle, as shown in the diagram. - 0...
An alpha particle, which contains two protons and two neutrons (i.e., charge of +2e and mass of 4m_p), is accelerated from rest through a potential difference of Delta V = -1000 V prior to entering a region of space that contains a uniform magnetic field of 1.00 mT into the page. Determine the speed of the particle as it enters the magnetic field region. Calculate the force in vector notation that the alpha particle experiences just after it enters the...
Figure 20.12 region of magnetic field 1 Path of the particle 1) In Figure 20.12, a small particle of charge q =-1.9 x 10-6 C and mass m 3.1 x 10-12 kg has velocity vo 8.1 x 103 m/s as it enters a region of uniform magnetic field. The particle is observed to travel in the semicircular path shown, with radius R 5.0 cm. Calculate the (a) magnitude and (b) direction of the magnetic field in the region.
3. (a) Show that when a particle with mass m and charge q enters a magnetic field having its velocity v perpendicular to the direction of the magnetic field B, it will perform a mv circular path of radius R- qB (b) Using the previous result find an expression for the period T of the circular motion. (c) A charged particle moves into a region of uniform magnetic field, goes through half a circle and then exits that region, as...
39.2
A beta^+ particle is moving at 19 500 m s^-1 parallel to the ground and due east through a region of space in which there is a uniform 0.05 T magnetic field. If the magnetic field lines point upwards in the vertical direction, what is the direction and magnitude of the magnetic force on the beta^+ particle? In a region of space there is a uniform magnetic field of magnitude 0.25 m T pointing vertically straight down. If an...
A proton enters a uniform magnetic field and follows trajectory B. Adeuteron (same charge and twice the mass) enters the magnetic field in the same way and with the same velocity as the proton. Which of the following is the right trajectory for the deuteron? CITIXYXXX XX E XXX 107 PM AZ OO A charged particle moves into a region containing both an electric and magnetic field. Which of the statements below are true? A The particle cannot accelerate in...
Problems 6-7: Free Response Problems (5 points each) + RO X X X 6. Please look to the diagram to the right. A uniform electric field E points toward the top of the page (in red) and exists over a distance d. Above that electric field region is a region of uniform iform magnetic field B, which is pointing into the page. The two fields do not overlap. A positive charge +q with mass m is released from rest at...
A particle with a positive charge has an orbital path that is
shown in the image below. The magnetic field is directed out of the
page. What is the direction that the particle’s path is moving? Now
another negatively charged particle is moving with the same speed
and same magnitude charge as the first one. Show this new particles
path and its direction.
As shown in the figure, an electron is fired with a speed of 3.73 x 10 m/s through a hole in one of the two parallel plates and into the region between the plates separated by a distance of 0.24 m. There is a magnetic field in the region between the plates and, as shown, it is directed into the plane of the page (perpendicular to the velocity of the electron). Determine the magnitude of the magnetic field so that...
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