Related questions
Question
thumb_up100%
Transcribed Image Text:The potential equals 7.60 V at the midpoint between two point charges that are 1.09 m apart. One of the charges is 1.10 x 109 C. Find
****
the value of the other charge.
Expert Solution
This question has been solved!
Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.
Step by stepSolved in 3 steps
Knowledge Booster
Similar questions
- location A is 1.90 m to the right of a point charge q. Location B lies on the same line and is 5.80m to the right of the charge. The potential difference VB-VA = 31.0V. What is the magnitude and sign of the charge?arrow_forwardThe potential equals 8.80 V at the midpoint between two point charges that are 1.03 m apart. One of the charges is 1.07 10-9 C. Find the value of the other charge.arrow_forwardGiven two particles with Q = 2.80-μC charges as shown in the figure below and a particle with charge q = 1.27 x 10-18 C at the origin. (Note: Assume a reference level of potential V = 0 at r = ∞o.) 9 x = -0.800 m 0 x = 0.800 m x (a) What is the net force (in N) exerted by the two 2.80-μC charges on the charge q? (Enter the magnitude.) N (b) What is the electric field (in N/C) at the origin due to the two 2.80-μC particles? (Enter the magnitude.) N/C (c) What is the electrical potential (in kV) at the origin due to the two 2.80-μC particles? kv (d) What If? What would be the change in electric potential energy (in J) of the system if the charge q were moved a distance d = 0.400 m closer to either of the 2.80-μC particles? Jarrow_forward
- A small object with a mass of 4.4 mg carries a charge of 26.9 nC and is suspended by a thread between the vertical plates of a parallel-plate capacitor. The plates are separated by 4.49 cm. If the thread makes an angle of 11.8° with the vertical, what is the potential difference in volts between the plates?arrow_forwardTwo point charges, A & B (qR = 123 µC), are separated by 86 cm. The distance between A & P is 20 cm. The potential at point P (see below) is zero. Determine qa. A 9A = 20 сm 86 cm WebAssign Plotarrow_forwardA small object with a mass of 3.81 mg carries a charge of 21.8 nC and is suspended by a thread between the vertical plates of a parallel-plate capacitor. The plates are separated by 5.67 cm. If the thread makes an angle of 12.7° with the vertical, what is the potential difference in volts between the plates? Round your answer to 1 decimal place.arrow_forward
- The potential equals 7.20 V at the midpoint between two point charges that are 1.02 m apart. One of the charges is 1.10x10-9 C. Find the value of the other charge.arrow_forwardA small object with a mass of 3.95 mg carries a charge of 26.9 nC and is suspended by a thread between the vertical plates of a parallel-plate capacitor. The plates are separated by 5.4 cm. If the thread makes an angle of 11.2 degrees with the vertical, what is the potential difference in volts between the plates. Round your answer to 1 decimal place.arrow_forwardA small object with a mass of 4.68 mg carries a charge of 33.7 nC and is suspended by a thread between the vertical plates of a parallel-plate capacitor. The plates are separated by 4.18 cm. If the thread makes an angle of 10.5° with the vertical, what is the potential difference in volts between the plates? Round your answer to 1 decimal place.arrow_forward
- An infinite plane of charge with σ=63.6 pC/m2 is shown in the figure. If the sheet is rotated such that α= 45 degrees, find the potential difference VB-VA in volts. Point B is vertically above point A by 3.9 m. Round your answer to 2 decimal places.arrow_forwardGiven two particles with Q= 2.70-μC charges as shown in the figure below and a particle with charge q = 1.31 x 10-18 C at the origin. (Note: Assume a reference level of potential V = 0 at r = ∞o.) Q x = -0.800 m 0 x = 0.800 m x Ⓡ (a) What is the net force (in N) exerted by the two 2.70-μC charges on the charge q? (Enter the magnitude.) N (b) What is the electric field (in N/C) at the origin due to the two 2.70-μC particles? (Enter the magnitude.) N/C (c) What is the electrical potential (in kV) at the origin due to the two 2.70-μC particles? kv (d) What If? What would be the change in electric potential energy (in J) of the system if the charge q were moved a distance d = 0.400 m closer to either of the 2.70-μC particles? Jarrow_forwardA large metal plate is charged uniformly to a density of σ = 2.0 × 10−9 C/m2 . How far apart are the equipotential surfaces that represent a potential difference of 25 V?arrow_forward
arrow_back_ios
arrow_forward_ios