A positive test charge of 6.44 x 10-5 C is placed in an electric field of 52.88 N/C inten- sity. What is the strength of the force exerted on the test charge? Answer in units of N.
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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 вWhat is the magnitude of a vertical electric field that will just barely counterbalance the weight of a plastic bead of mass 2.70 g if the bead has been charged to 1.44 µC? Report your answer in N/C. (1.00 µC = 1.00x10-6 C)An electric field E = 1.5x106 N/C right, causes the 6.0g ball to hang at an angle of 35 degrees with the vertical. Calculate the charge on the ball. Two 3.0 g point charges on 1.0 m-long thread repel each other after being equally charged. What is the charge q?
- A charge of 0.2x10-6C is placed at x = 0m. A second charge of 4.5x10-6C is placed at x = 0.22m. What is the electric field (size and direction) at x=0.050m?Calculate the magnitude of the electric field at the center of a square 42.5 cm on a side if one corner is occupied by a -38.3 μC charge and the other three are occupied by -27.3 μC charges. Express your answer to three significant figures and include the appropriate units. E = HÅ Value Units ?A charge, Q2 = -13.00x10-6 C, is 18.00 cm to the right of charge Q1 = 18.00x10-6 C. Where can a third charge be placed, along the line connecting Q1 and Q2, such that it experiences no net force? Give distances relative to Q1 and use a plus sign if the third charge is to the right of Q1.
- 1 ! 7 A skát с A spherically symmetric charge distribution produces the electric field E=( 5400 r²) N/C, where r is in m. Z mylabmastering.pearson.com/?courseld=12649908&key=55673220682936520262024#/ 2 pos W S X 3 20 F3 E D $ 4 C 888 R F What is the electric field strength at r= 16.0 cm ? Express your answer in newtons per coulomb. VG ΑΣΦ 4 Submit Part B Submit Part C What is the electric flux through a 32.0-cm-diameter spherical surface that is concentric with the charge distribution? Express your answer in newton meters squared per coulomb. ΕΠΙ ΑΣΦ % [VG| ΑΣΦ 5 Request Answer V FO Request Answer T How much charge is inside this 32.0-cm-diameter spherical surface? Express your answer in coulombs. G 4 a ^ 6 C 244 MacBook Air Y B SMC & ? 7 H ? N/C 80 F7 N-m²/C U C N H 8 - DII FS 1 ( 9 M DD K chegg.com X C ☆ O O MOSISO O 4 PA charge of (micro) 10.0 mC is placed on a corner of a cube. The flux through one of the sides opposite to the corner where the charge is placed is 5.5 x 104 Nm ²/C. O 2.3 x 104 N.m ²/C. O 1.0 x 104 N .m²/C. 4.7 x 104 Nm2/C.A change of -84 μC is placed in a uniform electric field that is directed vertially upwards with a feild strength of 8.63×104 N/C . The charge moves 1.40 mm at an angle of 30∘∘ doward from the horizontal (as shown below).
- A charge q₁ equal to 0.600 μC is at the origin, and a second charge 92 equal to 0.900 μC is on the x axis at 5.00 cm. 1) Find the force (magnitude and direction) that 0.600-μC charge exerts on 0.900-μC charge. Enter a positive value if the force acts in the +x direction and a negative value if the force acts in the - x direction. (Express your answer to three significant figures.) Submit N 2) Find the force (magnitude and direction) that 0.900-μC charge exerts on 0.600-μC charge. Enter a positive value if the force acts in the +x direction and a negative value if the force acts in the - x direction. (Express your answer to three significant figures.) NA metal wire 6.5 m long is carring a charge of 6.75 nC. What would be the electric field strength 10 cm away from the wire?The electric field at a point in space is definedas the force per unit charge at that point inspace. We can write the electric field E ofa charge q at a distance d from that charge,experienced by a charge Q, asE =FQ= kqd2.The electric field has a direction such that itpoints toward negative charges and away frompositive charges. Suppose your rub a balloonin your hair and it acquires a static charge of−2 × 10−9 C.What is the magnitude of the electric fieldcreated by the balloon at a location 1 m duenorth of the balloon? Coulomb’s constant is9 × 109 N · m2/C2.Answer in units of N/C. You hair acquired an equal amount of positivecharge when you rubbed the balloon on yourhead.What is the strength of the electric fieldcreated by your head at the location of yourfeet, 1.5 meters below?Answer in units of N/C.