A proton's speed as it passes point A is 50,000 m/s. It follows the trajectory shown in the figure below crossing equipotential lines. What is the proton's speed at point B? A 30V p+ 10V B -10V
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Q: Under certain circumstances, potassium ions (K*) in a cell will move across the cell membrane from…
A: This question can easily be solved by applying the concept of potential and potential energy.
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Q: In the figure, a proton is fired with a speed of 200,000 m/s from the midpoint of the capacitor…
A: Speed of proton = 200000 m/s Mass of proton = 1.67×10-27 kg Charge on proton= 1.6×10-19 C
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- A defibrillator containing a 17.7 µF capacitor is used to shock the heart of a patient by holding it to the patient's chest. Just prior to discharging, the capacitor has a voltage of 12.5 kV across its plates. How much energy is released into the patient? energy: JThe difference in electric potential between a thunder cloud and the ground is 2.13 108 V. Electrons move from the ground which is at a lower potential to the cloud which is at a higher potential. Determine the change in electric potential energy of one of the electrons that move to the cloud.An electron passes through an area of changing potential as shown below. At point A, the electron has a speed of 7.2 × 106 m/s. What is the approximate speed of the electron at point B? A +10 V 7 +20 V B +30 V
- What speed must the proton have in the velocity selector diagrammed below to make it through the capacitor plates undeflected? a. 1.24 x 105 m/s b. 1.83 x 105 m/s c. 7.53 x 104 m/s d. 2.22 x 106 m/s e. 2.50 x 104 m/sResources Give Up? Under certain circumstances, potassium ions (K†) in a cell will move across the cell membrane from the inside to the outside. The potential inside the cell is -75.5 mV and the potential outside the cell is zero. What is the change in the electrical potential energy of a single potassium ion as it moves across the membrane? change in potential energy: Does the potential energy of the potassium ions increase, decrease, or remain the same as the ions move from the inside to the outside? O decrease remain the same increaseEquipotential curves are shown in the figure below. A proton's speed as it passes point A is 80 km/s. It follows the path shown in the figure. Suppose that V₁-60 V, V₂=-10 V. 1 10 V V2 B 1) What is the proton's speed at point B? (Express your answer to two significant figure.) km/s
- A defibrillator containing a 16.7 µF capacitor is used to shock the heart of a patient by holding it to the patient's chest. Just prior to discharging, the capacitor has a voltage of 11.5 kV across its plates. How much energy is released into the patient? energy: Jc. Charge on C₂ (in nC) = Submit Answer Incorrect. Tries 4/10 Previous Tries d. Voltage across C₂ (in V) = Submit Answer Tries 0/10 e. Charge on C3 (in nC) = Submit Answer Tries 0/10 f. Voltage across C3 (in V) =A potential difference of 75 mV exists between the inner and outer surfaces of a cell membrane. The inner surface is negative relative to the outer surface. How much work is required to eject a positive sodium ion (Na+) from the interior of the cell?
- A -35.0 equipotential curve is located 4.5 cm from a 590.0 equipotential curve at the point where the curves are closest. What is the average strength of the electric field between the two equipotential curves around this point? Remember that 100. cm = 1.00 m. Use standard MKS unit abbreviations. Your Answer: Answer unitspotential begins to increase again, with each successive line 10 V higher until the 50 V Iline is of the top line is 30 V and the potential decreases by 10 V until the 0 V line is reached. Then, the The next three questions refer to the series of equipotential lines below. The electrical potential reached. Five positions, A -E are shown. +30 V +20 V В +10 V O V +30 V +50 V U. ....- 9. At which position is the magnitude of the electric field largest? d. D e. E а. А b. В