Find the direction and magnitude of the net electrostatic force exerted on the point charge q2 in the figure.(Figure 1) Let q = +1.9µC and d = 31cm. Express your answer using two significant figures.
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- .00 44E0 Give an expression for the electric field strength E at a point in terms of the charge q and distance r from the charge to that point. Use k for k = 47). Flag question (i.e. Use the following notation (without the quotes): "/" for division, "*" for multiplication, "+" an "-" as usual. For powers used "^2", while for square root use "sqrt". To indicate that square root applies to the whole expression use brackets - for example, for √AB use sqrt(A*B). For Greek letters such as π, a etc. use pi, alpha. For example to get 1 AVAB use 1/pi* A^2/B*sqrt(AB). Please use the exact variables given in the conditions of the problem: e.gif L is given, then do not use 1. Please use "Display response" button to check the you entered correct expression, before submitting your answer. л вTwo charges q1 = +2.27 μC and q2 = +8.2 μC are separated by a distance of 19.49 cm. Point P is locatedalong the line segment joining the two charges. How far is P (in cm) from q1, if the magnitude of the electricfield at P due to the two charges is equal to zero? Express your answers accurate to two decimal places.Draw a sketch of the problem and label appropriately.Imagine you have four identical charge q, placed on the corners of a square. If q = 6.49 nC, then the side of the square is s = 19.22 cm, calculate the net electric force acting on the charge at the upper right corner. NOTE: Final answer in FIVE decimal places. Then, state the SI unit of the variable being sought off. Add your answer
- The figure below is a cross section of three non . plates conductor of infinite width, where the charge is evenly distributed. 01 02 (1/2) L . 2L R 03 The charge density on the surface of each plate is 1 = - 3µC/m2, 2 =+ 5µC/m2 , 3 = - 5µC/m2 , and L = 2 cm. In vector notation, what is the field net electricity at points P and R?(Figure 1) shows five electric charges. Four charges with the magnitude of the charge 2.0 nC form a square with the size a = 2.0 cm. Positive charge with the magnitude of q = 2.0 nC is placed in the center of the square. Figure My Research Fo. -2.0 nC -2.0 nC y a 9 2.0 nC + a + 2.0 nC ▼ What is the magnitude of the force on the 2.0 nC charge in the middle of the figure due to the four other charges? Express your answer with the appropriate units. Fon q = Submit Part B O 0 = HÅ Value Request Answer Units ? What is the direction of the force on the 2.0 nC charge in the middle of the figure due to the four other charges? Express your answer in degrees to two significant figures. 15. ΑΣΦ wwww. 2 Review | Constants | Periodic Table ? counterclockwise from the positive x-axis1. A 0.90 µC positive test charge is brought 25 cm near a positive point charge with magnitude 1.6 x 10 -5 C. Find the electric force acting on the positive test charge and the electric field intensity on that point. 2. 2. Three point charges are placed adjacent to one another as shownbelo with their respectivemagnitude. Find thenet electric charge experience by charge B due to the other charges. A 1.5 m в -3.5 μC +1.5 µC 1.5 m +2.0 μC
- A charge of 2 µC is 1.08 cm to the left of a -2.1 nC charge. What is the force on the first charge, in newtons? Use + for right and - for left.A sold sphere 20 cm in radus carries 14 pC, dibuted unity throughout ts volume. Find the electric field strength 10 cm from the show's Express your answer using two significant figures AZ O B₁- Submit Part B Subm Bequent Find the field angh 20 cm from the spe Express your answer using two significant figures. Part C AL A Fedtd amergh ces to the s Express your newer using two signant ? At ? MN/C MN/C MN/CTwo charges, Q1 and Q2 are placed along the horizontal line, as shown in the picture below. The Q1 Q2 charges are separated by distance a=4.4 cm and the ratio of the charges, =5. а Q1 Q2, Where along the line connecting the two charges would the net electric field be equal to zero? Express your answer as distance from the charge Q1, in centimeters, with precision of two places after decimal.
- Three charges, g1=002- and g3=+q, are at the vertices of an equilateral triangle, as shown in the figure.(Figure 1) Figure 1 of 1 ▾ Part B Submit Largest Part C Submit Telden vannakken dat 9= 1 2 3 Give the direction angle, &, of the net electric force experienced by charge 1. Note that is measured counterclockwise from the positive axis. Express your answer as an integer. - Part D Request Answer ()=3 Repeat part B for charge 2. Express your answer as an integer. Request Answer Submit Request Answer Smallest Repeat part B for charge 3. Express your answer as an Integer. degrees degrees ReviewA positive charge q is fixed at point (−4, 3) and a negative charge -q is fixed at point (-4,0). Determine the net electric force Fnet acting on a negative test charge -Q at the origin (0, 0) in terms of the given quantities and physical constants, including the permittivity of free space Eo. Express the force using ij unit vector notation. Enter precise fractions rather than entering their approximate numerical values. F net = = 4- 3- 2- 1- -1- -2- -3- y 2 4Answer the following problem solving, write your answer will be in two decimal places. (Do not round off). Use scratch paper and calculator. 1. A positive charge q exerts a force of magnitude - 0.10 N on another charge - 2q. Find the magnitude of each charge if the distance separating them is equal to 30 cm. 2. A charge of 4.67 x 10-18 C is placed 4.5 x 10 -6 m away from another charge of - 4.79 x 10-19, what is the attraction between them? 3. A positive charge of 3.0C and negative -4.0C are separated by 60m. What is the force between the charges? 4. Two charges are both 5.0C push each other apart with a force of 15.3N. How far apart are the two charges? 5. A negative charge of -9.0x10-6C exerts an attractive force of 14 N on a first charge that is away of 0.060m. What is the magnitude of the first charge?