Answer question ii,iii,iv, v, vi THIS IS A FOLLOW UP QUESTION rt,ii.iii.iv.V.Hence calculate the magnitude of the electric field E₁ at P, due to Q₁-State the magnitude of the electric field E₂ at P, due to Q₂.Draw and label a vector diagram to indicate the directions of E₁ and E₂ at point P.20/01do noliomvi. Calculate the magnitude of the resultant electric field at P.KAZ (2 marks)Use your vector diagram from (iv) to explain why the resultant electric field at P has novertical component. 3. Two point charges Q₁ = -3.00 × 10 °C and Q₂ = +3.00 x 10-6C are placed 2.00m apart,as shown in the diagram below.i.Q₁(a) Draw the electric field surrounding Q₁ and Q₂ on the diagram above.(b) Find the magnitude of the force between the charges.(c) Point P is midway between charges Q₁ and Q2, and 1.00m vertically below the linejoining their centres, as shown in the diagram below.Q₁2.00 mQ2P1.00 mQ₂Show that the distance between point P and charge Q₁ is 1.41m.

We need to question (ii),(iii),(iv),(v),(vi)

(c) Point P is midway between charges Q₁ and Q₂, and 1.00m vertically below the line joining their centres, as shown in the diagram below. Q₁ 2.00 m P 1.00 m Q₂ Show that the distance between point P and charge Q₁ is 1.41m.

(c) Point P is midway between charges Q₁ and Q₂, and 1.00m vertically below the line joining their centres, as shown in the diagram below. Q₁ 2.00 m P 1.00 m Q₂ Show that the distance between point P and charge Q₁ is 1.41m.

Related questions

Q: ACTIVITY 4: RESISTANCE READING Directions: Read the value indicated by the ohmmeter reading scale…

A: Resistance is the proportionality constant between voltage and current according to Ohm's law.…

Q: A person drove 5 miles from home to the store. She took a different route back home that was only 4…

A: Motion of person (i) 5 miles from home to store (ii) 4 miles from store to back home

Q: Worksheet #2. GROUP: r-axis is horizontal and y-axis is vertical. 1. A 10 pound block is resting on…

Q: 31. A small spherical object of mass, m, falls from rest in a fluid in which the viscous drag is kv…

Q: An airplane flying against the wind travels 295 miles in the same amount of time it would take the…

Q: a) Write the Biot-Savart Law for a steady current I. b) By drawing the problem, write the expression…

Q: Using Slide 8, answer the questions below: A. The variable, C, stands for the speed of light. Does…

Q: Lydia runs 400 meters to Elma’s house, turns around, and runs 400 meters back home. What is Lydia’s…

A: distance : length of path between initial and final position.

Q: Your instructor purchases a drone. He gets out of the roof of a building and flies the drone 140…

Q: B) When t = t, what is the total charge, in units of microcoulomb, accumulated in the capacitor

A: Voltage of battery, ϵ=20V Capacitance of capacitor, C=10μF⇒10×10-6F Resistance of resistor, R=65Ω

Q: A student drops a pen from a classroom window on the second floor of the mathematics building. If…

Q: estion 9 If the value of x-component of a vector is positive(+) and value of y-component is negative…

Q: Question 2 What is the contra positive of If you study hard, then you pass your course. O none of…

A: Introduction: Contra positive statements are the statements form by adding not in both hypothesis…

Q: how do you get the 100, why do you use 1+3+2 over 600? draw all steps, it does not make sense

Q: isplacement Q6: An elevator has a mass of 1600 kg and is carrying 200 kg passengers. A constant…

Q: The position of a particle is given by the equation s = f(t) = ß – 62 + 9t , where t is measured in…

Q: (b) Deandre is hiking toward his campsite at a constant pace. A few miles from the campsite, he sees…

A: Solution: as given that Deandre is hiking for capasite with constant pace. he takes the different…

Q: Eleri runs 2 laps of a running track Each lap is 400m Eleri thinks she has run 1km in total Is eleri…

A: We know, 1 km = 1000 m.

Q: A camper sets out from his tent going south 65 degrees east (S65E) and travels in the direction for…

A: Given:- A camper sets out from his tent going south 65 degrees east (S65E). Its travel in his…

Q: A Red Cross helicopter takes off from headquarters and flies 70 km in the direction 240° from North.…

A: Displacement 1, d1=70km, 240o from north Displacement 2, d2=115km, 305o from north

Q: ngular position of a point on a rotating wheel is given by e = 2.80 + 4.82t² + 3.79t³, where e is in…

Q: 2. The mass of the Earth is 5.98 x 1024 kg, and its average radius is 6370 km. Find the…

A: Given: ME=5.98*1024 kgR=6370 km = 6.37*106 mm=50kgM'=2MER'=3RE

Q: This diagram shows the wavelength and amplitude of wave P. Wave P Which diagram below is needed to…

Q: A student drops a pen from a classroom window on the fifth floor of the mathematics building. If the…

Q: A small ball is rotating in a circular horizontal path. The ball is held by a rigid rod. The moment…

A: Given data: Ball rotating in circular horizontal path Moment of inertia (I) = 2.43 kg.m2 Angular…

Q: At time t = 0, a rigid rotor is in a state whose functional form in configuration space can be…

A: Given: The wavefunction of the rigid rotor is

Q: 25. Starting from rest, a particle moving in a straight line has an acceleration of a = (2t –…

Q: 12. The Y coordinates of a particle which moves along a curve are given by y = 20t + where y is in…

Q: What is the distance x in the figure below

Q: Please answer #12 and #14. The first page is provided for context.

A: Hello. Since you have posted multiple questions and not specified which question needs to be solved,…

Q: QUESTION 4 If T1 = 36.42 and T2 = 36.6, then the average value for T equal to: 36.5 36.51 36.0 36

Q: Two oppositely charged metal spheres are brought toward each other. Which graph best represents the…

A: Given data: Two oppositely charged metal spheres Required: The relationship between magnitude of…

Q: For a particle moving in the x-y plane, the position can be written in polar coordinates as rrr,…

A: We have to find velocity in vector form

Q: 19. A partidle which moves along the curved path shown decelerates at a rare proportional to the…

A: Since you have asked multi subpart question (no.9), I am answering first 3 subparts. Kindly resubmit…

Q: can you visibly write everything so I can follow the steps

A: (a) Convert the following into the indicated units: i) 6250 ft to kmFirst, convert feet to meters…

Q: A tourist is walking at a speed of 2.3 m/s along a 7.0-km path that follows an old canal. If the…

A: Speed, v = 2.3 m/sDistance, d = 7 kmSpeed of light in vacuum, c = 3.8 m/s

Q: 1. A paintball with a mass of 0.15 kg is fired from a paintball gun that has a mass of 5.5 kg. The…

A: Since you have asked multiple questions, we will solve the first question for you. If you want any…

Q: Question content area top Part 1 A train leaves a station and travels north at a speed of 105 mph.…

A: Speed of train 1, Let t be the travel time of 2nd train and t+2 be the travel time of 1st trainSpeed…

Question

Answer question ii,iii,iv, v, vi THIS IS A FOLLOW UP QUESTION

rt,
ii.
iii.
iv.
V.
Hence calculate the magnitude of the electric field E₁ at P, due to Q₁-
State the magnitude of the electric field E₂ at P, due to Q₂.
Draw and label a vector diagram to indicate the directions of E₁ and E₂ at point P.
20/01
do noliom
vi. Calculate the magnitude of the resultant electric field at P.
KAZ (2 marks)
Use your vector diagram from (iv) to explain why the resultant electric field at P has no
vertical component.

3. Two point charges Q₁ = -3.00 × 10 °C and Q₂ = +3.00 x 10-6C are placed 2.00m apart,
as shown in the diagram below.
i.
Q₁
(a) Draw the electric field surrounding Q₁ and Q₂ on the diagram above.
(b) Find the magnitude of the force between the charges.
(c) Point P is midway between charges Q₁ and Q2, and 1.00m vertically below the line
joining their centres, as shown in the diagram below.
Q₁
2.00 m
Q2
P
1.00 m
Q₂
Show that the distance between point P and charge Q₁ is 1.41m.

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

SEE SOLUTION Check out a sample Q&A here

Step 1: Given data for question c)

VIEW

Step 2: (ii) Calculation of electric field E(1) at P due to Q1:

VIEW

Step 3: (iii) Calculation of electric field E(2) at P due to Q2:

VIEW

Step 4: (iv) Vector diagram of Electric fields at point P:

VIEW

Step 5: (v) Explanation of why resultant electric field do not have vertical component:

VIEW

Step 6: (vi) Calculation of magnitude of resultant electric field at P:

VIEW

Solution

VIEW

Step by step

Solved in 7 steps with 12 images

SEE SOLUTION Check out a sample Q&A here

GET THE APP

About FAQ Academic Integrity Sitemap Document Sitemap

Contact Bartleby Contact Research (Essays)High School Textbooks Literature Guides Concept Explainers by Subject Essay Help Mobile App

GET THE APP

Privacy

Your CA Privacy Rights

Your NV Privacy Rights

Cookie Policy

About Ads

Manage My Data

bartleby, a Learneo, Inc. business