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this is a question from lab experment. all the neceassay info is
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2....
please do all of them 6 ,7 ,and 8 6) Ampere's law provides a convenient way...
please do all of them 6 ,7 ,and 8
6) Ampere's law provides a convenient way of calculating: A) Electric field due to current distribution. B) Magnetic field due to distribution of electric current. C) The force between a numbers of wires carrying current. D) Magnetic force on a wire carrying current. E) Magnetic field due to charge distribution. 7) Which one of the following is not correct about mass spectrometer? A) Particles regardless of mass and charge enter to...
need ans for the following questions, the last 3 pages for more info. Questions: more info:...
need ans for the following questions, the last 3 pages for more
info.
Questions:
more info:
expermint e/m avr=1.71033*10^11
7 2 points of the following options, which conditions for V or I produce the largest radius of the electron beam path r? Hint: Use e/m= 2V (5/4)*aP/(Nuo Ir) Maximum land Maximum V O Maximum land Minimum V Minimum I and Maximum V Minimum I and Minimum V 8 2 points By what factor will change if the radius of the...
4. Use the Biot-Savart law to derive Equation 1. Show all your work. Use additional paper...
4. Use the Biot-Savart law to derive Equation 1. Show all your work. Use additional paper if needed. 5 Show that for 2 Helmholtz coils with N loops, and z=a/2, Equation 2 can be derived from Equation 1. Show all your work. Use additional paper if needed. Floure 4 Connections for em Experiment Theory A charged particle moving through a magnetic field experiences a force. In this experiment, the velocity of the accelerated electrons is perpendicular to the magnetic field,...
1) A 179‑turn circular coil of radius 3.55 cm and negligible resistance is immersed in a...
1) A 179‑turn circular coil of radius 3.55 cm and negligible resistance is immersed in a uniform magnetic field that is perpendicular to the plane of the coil. The coil is connected to a 13.7 Ω resistor to create a closed circuit. During a time interval of 0.121 s, the magnetic field strength decreases uniformly from 0.643 T to zero. Find the energy, in millijoules, that is dissipated in the resistor during this time interval. energy: mJ 2) You decide...
27B -- Experiment: Magnetic Force on a Moving Charge - qolme Objective: In this module you...
27B -- Experiment: Magnetic Force on a Moving Charge - qolme Objective: In this module you will observe the trajectory of an electron beam in a uniform magnetic field oriented in various ways to the electron velocity. You will then use your observation of the radius of the electron trajectory to measure the charge to mass ratio for an electron. Equipment: One elm apparatus (Lurge mounted glass bulb with Helmholtz coils); one Leybold or PASCO power supply for electron gun...
) You need to set up a magnetic field perpendicular to the 5) An electron gun...
) You need to set up a magnetic field perpendicular to the 5) An electron gun ends out a beam of electrons whose kinetic energies are all about 65 weV. V-16x 10- beam that causes it to turn through a circular arc of length 4 mm. How strong must the magnetic field be? Answer: Submit All A 6) You take a wire and wind it into a circular loop leaving the two ends free so that they can be connected...
6. Using the equation of the magnetic field due to a single ring of charge, derive...
6. Using the equation of the magnetic field due to a single ring of charge, derive the formula for the magnetic field at the midpoint between the two coils (see Fig. 2). Your expression should be in terms of N (the number of turns in one coil), I, and R. MOIR² Biot -savart Law Bloop = 2(R2 + z2)3/2 No cau xo - No. Il xr uit 12 un 12 periment 7: Charge to Mass Ratio IVlagiel llen Magnetic Forces...
2. Consider a charged particle in a magnetic field. Let -e = -1.60 x 10-191C) be...
2. Consider a charged particle in a magnetic field. Let -e = -1.60 x 10-191C) be an electron, under B=0.1T) of a uniform magnetic field directed out of the page direction (o-direction). At t = 0[sec] the particle is at the origin, and the initial velocity is toward positive y direction. (a) Sketch the initial configuration of this electron (-e at the origin) into (x,y)-plane. Applying the right hand rule, indicate the magnetic force on this moving electron. Note that...
In Explorations 1 and 2, we have been focusing on the direction of the force on...
In Explorations 1 and 2, we have been focusing on the direction of the force on a current- carrying wire. It is obtained by using a right hand rule. Make sure you understand the right hand rule and how to use it to determine the direction of the force on a current- carrying wire when the direction of the magnetic field and the current are known. The magnitude of the force on a current-carrying wire is given by F =...
PHYSICS LAB MAGNETISM II: FORCE ON A CURRENT-CARRYING WIRE-8 You can find datas from here the...
PHYSICS LAB MAGNETISM II: FORCE ON A CURRENT-CARRYING WIRE-8
You can find datas from here the Link provided:
https://www.youtube.com/channel/UCKZ_Kb4C9j-B3RSNBMv2s_w
Equipment: 1 current-carrying wire set-up 1 power supply 1 ammeter Investigation 2: Relationship between force and length of a current-carrying wire In this section we will explore the relationship between the force on a current-carrying wire and the length of the wire. Investigation 2.1 Predict the dependence of the force on the length of the wire. If you were to plot...
please do all of them 6 ,7 ,and 8
6) Ampere's law provides a convenient way of calculating: A) Electric field due to current distribution. B) Magnetic field due to distribution of electric current. C) The force between a numbers of wires carrying current. D) Magnetic force on a wire carrying current. E) Magnetic field due to charge distribution. 7) Which one of the following is not correct about mass spectrometer? A) Particles regardless of mass and charge enter to...
need ans for the following questions, the last 3 pages for more
info.
Questions:
more info:
expermint e/m avr=1.71033*10^11
7 2 points of the following options, which conditions for V or I produce the largest radius of the electron beam path r? Hint: Use e/m= 2V (5/4)*aP/(Nuo Ir) Maximum land Maximum V O Maximum land Minimum V Minimum I and Maximum V Minimum I and Minimum V 8 2 points By what factor will change if the radius of the...
4. Use the Biot-Savart law to derive Equation 1. Show all your work. Use additional paper if needed. 5 Show that for 2 Helmholtz coils with N loops, and z=a/2, Equation 2 can be derived from Equation 1. Show all your work. Use additional paper if needed. Floure 4 Connections for em Experiment Theory A charged particle moving through a magnetic field experiences a force. In this experiment, the velocity of the accelerated electrons is perpendicular to the magnetic field,...
27B -- Experiment: Magnetic Force on a Moving Charge - qolme Objective: In this module you will observe the trajectory of an electron beam in a uniform magnetic field oriented in various ways to the electron velocity. You will then use your observation of the radius of the electron trajectory to measure the charge to mass ratio for an electron. Equipment: One elm apparatus (Lurge mounted glass bulb with Helmholtz coils); one Leybold or PASCO power supply for electron gun...
) You need to set up a magnetic field perpendicular to the 5) An electron gun ends out a beam of electrons whose kinetic energies are all about 65 weV. V-16x 10- beam that causes it to turn through a circular arc of length 4 mm. How strong must the magnetic field be? Answer: Submit All A 6) You take a wire and wind it into a circular loop leaving the two ends free so that they can be connected...
6. Using the equation of the magnetic field due to a single ring of charge, derive the formula for the magnetic field at the midpoint between the two coils (see Fig. 2). Your expression should be in terms of N (the number of turns in one coil), I, and R. MOIR² Biot -savart Law Bloop = 2(R2 + z2)3/2 No cau xo - No. Il xr uit 12 un 12 periment 7: Charge to Mass Ratio IVlagiel llen Magnetic Forces...
2. Consider a charged particle in a magnetic field. Let -e = -1.60 x 10-191C) be an electron, under B=0.1T) of a uniform magnetic field directed out of the page direction (o-direction). At t = 0[sec] the particle is at the origin, and the initial velocity is toward positive y direction. (a) Sketch the initial configuration of this electron (-e at the origin) into (x,y)-plane. Applying the right hand rule, indicate the magnetic force on this moving electron. Note that...
In Explorations 1 and 2, we have been focusing on the direction of the force on a current- carrying wire. It is obtained by using a right hand rule. Make sure you understand the right hand rule and how to use it to determine the direction of the force on a current- carrying wire when the direction of the magnetic field and the current are known. The magnitude of the force on a current-carrying wire is given by F =...
PHYSICS LAB MAGNETISM II: FORCE ON A CURRENT-CARRYING WIRE-8
You can find datas from here the Link provided:
https://www.youtube.com/channel/UCKZ_Kb4C9j-B3RSNBMv2s_w
Equipment: 1 current-carrying wire set-up 1 power supply 1 ammeter Investigation 2: Relationship between force and length of a current-carrying wire In this section we will explore the relationship between the force on a current-carrying wire and the length of the wire. Investigation 2.1 Predict the dependence of the force on the length of the wire. If you were to plot...
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