At which point on this electric field will a test charge show the maximum strength?A
B
C
D

Answers

Answer 1

Answer:

Answer:

Explanation:

The figure shows the electric field produced by a spherical charge distribution - this is a radial field, whose strength decreases as the inverse of the square of the distance from the centre of the charge:

$E\propto (1)/(r^2)$

More precisely, the strength of the field at a distance r from the centre of the sphere is

$E=k(Q)/(r^2)$

where k is the Coulomb's constant and Q is the charge on the sphere.

From the equation, we see that the field strength decreases as we move away from the sphere: therefore, the strength is maximum for the point closest to the sphere, which is point A.

This can also be seen from the density of field lines: in fact, the closer the field lines, the stronger the field. Point A is the point where the lines have highest density, therefore it is also the point where the field is strongest.

Related Questions

Astronomy can best be described as a/an A. study of objects pertaining to the interior part of the Earth.B. study of objects beyond the Earth's atmosphere.C. Air Force pilot on a naval carrier.D. daily horoscope.
When you turn on the light switch in a room, you have completed the _____. open circuit series circuit parallel circuit switch circuit
Which statement explains why a blue house looks blue?The house reflects mostly red and green light The house absorbs mostly blue light The house reflects mostly blue light The house reflects every color expect blue
Graph the following set of data using proper graphing techniques.Step 1. Label horizontal (X) axis and vertical (Y) axis correctly. Step 2. Plot pair of values from data table (X and Y). You may use the calculator function STAT, EDIT.Step 3. Draw a light “line of best fit”. Do NOT connect dots! You may use the calculator function STAT, CALC.a. What kind of curve did you obtain?b. What is the relationship between the variables?c. What do you expect the distance traveled to be after 45 s?d. How much time is required for the object to travel 74 m?
A car speeds up from 65 m/s to 120m/s in 9s. What is the acceleration of the car

A galaxy whose stars are arranged in a disk with arms that surround a central bulge is a _____ galaxy. irregular elliptical cluster spiral

Answers

Answer;

Spiral galaxy

Explanation;

In a spiral galaxy, the stars, gas and dust are gathered in spiral arms that spread outward from the galaxy's center. Spiral galaxys are divided into three main types depending on how tightly wound their spiral arms are: Sa, Sb and Sc.

All spiral galaxies can broadly be described visually as having a central bulge of old stars surrounded by a flattened disk of young stars, gas and dust.

A galaxy whose stars are arranged in a disk with arms that surround a central bulge is a spiral galaxy. the rest of the choices do not answer the question above

A 2.50 × 105 W motor is used for 26.4 s to pull a boat straight toward shore. How far does the boat move toward shore if a force of 4.20 × 104 N is applied by the motor?

Answers

The power of the motor is
2.50x10⁵ W
or
2.50x10⁵ N m/s

The time it takes to pull the boat is
26.4 s

The force applied is
4.20x10⁴ N

The distance traveled by the boat is
2.50x10⁵ N m /s (26.4 s) / (4.20x10⁴ N)
= 157.14 m

Answer:

157 m

Explanation:

right on ed2020

Срочно нужно решение задания 5, пожалуйста!!!!!

Answers

I don’t understand this let me try I will try my best

13. Squids and octopuses take in water and forcibly expel it through thesiphon in a sudden spurt that pushes them through the water. This
propulsion is an example of which Newton's Law?
A. 1st Law
B. 2nd Law
C. 3rd Law
D. All of Newton's Laws

Answers

Squids and octopuses forcefully expel water through the siphon after ingesting it, propelling themselves through the water. Third Law of Newton.

Describe the third law of Newton's law?

His third law asserts that there is an opposite and an equal response in nature for every action (force). When an object A pulls on an object B, the opposite force is applied to the first object by object B. Alternatively said, interactions lead to forces.

What are examples of the third law of Newton?

There are numerous real-world applications of Newton's third motion law. For instance, when you leap, the earth exerts an equal and opposing reaction force that propels you into to the air. This is because when you apply a force to it with your legs, it responds in kind. Rockets and other projectiles are designed using Newton's third law by engineers.

To know more about third law of Newton visit:

brainly.com/question/29768600

#SPJ1

Bena thinks that dissolving more salt in water causes the mixture’s freezing temperature to change. Which is the best type of scientific investigation for Bena to use to study this?

Answers

Entropy and the Second Law of Thermodynamics.
Dissolving salt in water lowers the temperature at which the water freezes, or at which the ice melts.

You have two pieces of wire that allows electrons to pass through them when they are connected to each other. If you insert a piece of rubber between the wires, the electrons do not flow. The rubber material is ??