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4. A still Alpha particle (charge amount-3.20x1010 C, mass-6.65x1027 kg) is placed between the two parallel...
A still Alpha particle (charge amount 320*10 C. mass-6.65 10 kg) is placed between the two parallel plates below with electric potential difference of 2500 V. The distance between the two parallel plates is 5 om battery a Find the electric force acting on the alpha particle. (2 marks) b. Find the acceleration of the alpha particle. You may ignore its gravity force acting on it this time because it is too tiny in comparison to its electric force (2...
The potential difference between two parallel conducting plates in vacuum is 350 V. An alpha particle with mass of 6.50 x10-27 kg and charge of 3.20 x10-19 C is released from rest near the positive plate. What is the kinetic energy of the alpha particle when it reaches the other plate? The distance between the plates is 27.0 cm.
The potential difference between two parallel conducting plates in vacuum is 160 V. An alpha particle with mass of 6.50×10-27 kg and charge of 3.20×10-19 C is released from rest near the positive plate. What is the kinetic energy of the alpha particle when it reaches the other plate? The distance between the plates is 24.0 cm.
The potential difference between two parallel conducting plates in vacuum is 135 V. An alpha particle with mass of 6.50×10-27 kg and charge of 3.20×10-19 C is released from rest near the positive plate. What is the kinetic energy of the alpha particle when it reaches the other plate? The distance between the plates is 14.0 cm.
The potential difference between two parallel conducting plates in vacuum is 350 V. An alpha particle with mass of 6.50×10 27 kg and charge of 3.20x10-19 C is released from rest near the positive plate. What is the kinetic energy of the alpha particle when it reaches the other plate? The distance between the plates is 36.0 cm Submit Answer Tries 0/12
An alpha particle has a mass of 6.65 x 1027 kg and a charge of +3.2 x 1019 C (it is the same as a Helium nucleus). A large, uncharged parallel plate capacitor of capacitance 0.01 nF sits near a radioactive sample that emits alpha particles. A very slow-moving alpha particle ends up inside the capacitor exactly in between the two plates (equidistant from each plate). A 1.5V battery is then connected across the capacitor so that the positive terminal...
* Alpha particle flies between two charged plates perpendicularly to the plates. It starts its motion at one plate at 2.73X10^5 m/s and hits other plate at 3.32X10^5m/s. Find the electric field strength magnitude if the distance between the plates is 5.92
Two charges are placed between the plates of a parallel plate capacitor. One charge is +q1 and the other is q2 = +4.58C. The charge per unit area on each plate has a magnitude of = 3.37 × 10-6 C/m2. The force on q1 due to q2 equals the force on q1 due to the electric field of the parallel plate capacitor. What is the distance r between the two charges?
Two charges are placed between the plates of a parallel plate capacitor. One charge is +q1 and the other is q2 = +4.56C. The charge per unit area on each plate has a magnitude of = 8.63 × 10-3 C/m2. The force on q1 due to q2 equals the force on q1 due to the electric field of the parallel plate capacitor. What is the distance r between the two charges?
A 150 V battery is connected across two parallel metal plates of area 28.5cm2 and separation 8.20 mm. A beam of alpha particles (charge +2e, mass 6.64 x 10-27 kg). Acelerated from the rest through a potential difference of 1.75 kV and enters the region between the plates perpendicular to the electric field. What magnitude and direction of magnetic field are needed so that the alpha particles emerge undeflected from between the plates?