Many communities in the United States get some of their power from hydroelectric dams. These dams work by blocking the path of a river to create a large lake with water held back by the dam. The dam can then be opened to allow water to cross over the dam. The energy from the water is captured and transformed into electrical energy. What type of energy does a hydroelectric dam capture as the water passes through?

The no. of moles of steam present in the cooker is found to be 0.565 mol using the ideal gas equation.

The ideal gas equation, states that the sum of the universal gas constant and the absolute temperature of a gas is equal to the product of the volume and pressure of one gram of an ideal gas.

The ideal gas equation is PV = nRT. The ideal gas's pressure, volume, total no. of moles, universal gas constant, and temperature are all represented in this equation by the symbols P, V, n, R, and T, respectively.

The no. of moles of a substance is calculated by dividing its mass during a chemical reaction by the mass of one mole of that substance.

Given:

Pressure, P = 4.50atm

Volume, V = 4L

Temperature, T = 115℃ = 273 + 115 = 388K

To find:

No. of moles, n = ?

Formula:

PV = nRT

Calculations:

n = 4.50 x 4 / 0.082 x 388

n = 0.565 mol

Result:

By using the ideal gas equation, 0.565 mol of steam is found to be present in the cooker.

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A reaction's rate constant is discovered to be 0.15 . If the initial concentration of the reactant is 0.30 m, 22.2 sec of time does it take for the concentration to decrease to 0.15 m.

1/[A]t=kt+1/[A]o

t=(1/[A]t−1/[A]o)/k=(1/0.15−1/0.30)/0.15=22.2seconds

Mathematically, time and other physical quantities can be coupled to create additional ideas like motion, kinetic energy, and time-dependent fields. The basis of recordkeeping is timekeeping, a complex of technological and scientific challenges. Time is change, or the span of time during which change takes place with motion. Without a change, it is impossible to detect the passage of time. Comparison with a standard is used to calibrate the length of time or change.The SI unit of time is called the second, abbreviated as s. Time can be used to quantify, compare, or even order events based on their duration or the intervals between them. One method of making efficient use of resources is to use time study and motion study, which enhance output and performance.

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Explanation:

a. i. R and Z (same number of protons but different number of neutrons therefore are isotopes of the same element).

ii. Q (has more portons than electrons).

iii. X (has more electrons than protons).

iv. L (mass number = protons + neutrons).

v. M (belongs to group 1 alkali metals which are of very reactive metals).

b. 12 (atomic number= number of protons).

c. 7 (X has 9 electrons before ionisation, therefore 7 electrons in the outer most shell).

Q (is also from ionisation reaction).

hope it helps :)

A. (i). Two identical atoms with the letters Q and Z each contain 17 protons.

ii. Protons outnumber electrons in a positive ion. R, which has 17 protons and 17 electrons, is the only atom or ion that has more protons than electrons. It removes an electron to form a positive ion with a charge of +1: R+.

iii. In a negative ion, the number of protons is more than the number of electrons. J has 16 electrons and 16 protons, making it the only atom or ion with more electrons than protons. It becomes a negative ion with a charge of -1, or J-, by the addition of one electron.

iv. Such an atom or ion has the letter M and has 11 protons and 12 neutrons. It adds a proton to form an atom with a mass number of 20: N with 12 protons and 8 neutrons.

v. Group 1 of the periodic table consists of metals that are extremely reactive. L, an atom in group 1 with 10 protons, is the only one in the table to have this characteristic.

The fundamental building block of matter, an atom, nevertheless has the characteristics of an element. It consists of a small, compact nucleus with positively charged protons and electrically neutral neutrons surrounded by orbitals of negatively charged electrons.

For the above example,

(b) An atom with an atomic number of 12 has 12 electrons because an atom has exactly the same number of protons in the neutral state as electrons.

(C)

(i) X has exactly 11 protons, the same number of protons as the atom or ion M has. Group 1 of the periodic table, commonly known as the alkali metals, consists of elements with 11 protons.

(ii) An alkali metal is another atom that interacts in the same way as the substance from which ion X is made. According to the table, the only atom in group 1 is L, which has 10 protons. However it lacks the 11 protons of the alkali metals mentioned above

Therefore, two identical atoms with the letters Q and Z each contain 17 protons.

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The molarity of the sodium hydroxide, NaOH solution, given that 18.66 mL was used is 0.107 M

We'll begin by obtaining the mole of NaOH. This can be obatined as follow:

KHP + NaOH -> KNaP + H₂O

From the balanced equation above,

1 mole of KHP reacted with 1 mole NaOH.

Therefore,

0.002 mole of KHP will also react with 0.002 mole of NaOH.

Finally, we shall determine the molarity of the NaOH solution. Details below:

Molarity = mole / volume

Molarity of NaOH = 0.002 / 0.01866

Molarity of NaOH = 0.107 M

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To derive precise results, it is important for other variables in an experiment to be controlled. Accuracy and precision are the key factors of every practical experiment carried out.

During the course of experiments, special emphasis is laid on the objective of the experiment. Procedures and precautions are highly objective-oriented. There are possibilities of errors as the surrounding becomes an integral part of the system in practicals.

Certain physical and chemical quantities are ignored in theoretical assessment, but they affect the practical work. Impurities and uncontrolled reactions can be barriers. Optimum conditions are sought before conducting experiments.

Nothing is destroyed by burning or other modifications to matter. Before and after changes always occur, the mass of the substance remains constant. According to the principle of conservation of mass, matter cannot be created or destroyed.

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The combined mass of the two reactions that have taken place is 145.33 g.

The combined mass of the contents of the flasks after the reaction has taken place is 114.87 g.

The percent deviation is 20.9 % and is not zero because some products escaped as gas.

The law of conservation of mass states that matter cannot be created nor destroyed.

This means that for a given chemical reaction, the total mass of the reactants will equal the total mass of the products.

The masses in the reaction are:

Mass of empty Erlenmeyer Flask (g) 30.46 g

Mass of the combined reactants =  (175.79 - 30.46) g

Mass of the combined reactants = 145.33 g

Mass of the contents of the flask after the reaction has taken place = 145.33 - 30.46) g

mass of the contents after the reaction = 114.87 g

Percent deviation = (145.33  - 114.87) / 145.33 * 100%

Percent deviation = 20.9 %

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The atomic mass of hafnium is 178.55 amu based on the mass of the given isotopes.

To determine the average atomic mass of hafnium, we first determine the mass fractions of the isotopes as follows;

m(1) = 5 ÷ 100 = 0.05

m(2) = 19 ÷ 100 = 0.19

m(3) = 27 ÷ 100 = 0.27

m(4) = 14 ÷ 100 = 0.14

m(5) = 35 ÷ 100 = 0.35

Now the average atomic mass of hafnium can be calculated by the addition of the products of the mass fractions of the isotopes and their respective atomic masses.

Average atomic mass = [m(1) × 176] + [m(2) × 177] + [m(3) × 178] + [m(4) × 179] + [m(5) × 180]

Average atomic mass = (0.05 × 176) + (0.19 × 177) + (0.27 × 178) + (0.14 × 179) + (0.35 + 180)

Average atomic mass = 8.8 + 33.63 + 48.06 + 25.06 + 63

Average atomic mass = 178.55

Hence the average atomic mass of Hafnium is calculated to be 178.55 amu.

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The spots will remain towards the bottom of the TLC plate in the TLC experiment if the eluent is changed from ethyl acetate to t-butyl methyl ether.

The spots will remain at the bottom of the TLC plate because t-butyl methyl ether is less polar and cannot overcome attractions of sample to adsorbent.

TLC experiment concept is simple. In TLC, adsorbent is silica which is highly polar. Then the eluent we can use as in different percentage of ethyl acetate & ether solution depending upon the polarity of given products.

As we know that polar molecules strongly bind with other polar molecules, ethyl acetate and silica gel are highly polar, the solvent ethyl acetate overcomes the strong bonding between the spotted product and adsorbent and takes the spot with the solvent upto the top.

If in this TLC experiment, instead of ethyl acetate, t-Butyl methyl ether is used, which is a highly non-polar or less polar solvent, it does not overcome the bonding since polar spots don't have greater binding affinity towards this non-polar ether solvent, therefore, the spots will remain tightly bonded with silica on TLC plate and spots will remain at the bottom of the TLC plate.

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The energy of a photon can be calculated by multiplying Planck's constant by the frequency of the light.

According to this question, the relationship between the energy of a photon and the frequency of light was determined by Ernst Planck. He proposed a equation as follows:

E = hf

Where;

The energy of a frequency 4.0 × 10¹⁴ Hz can be calculated as follows:

E = 6.626 × 10-³⁴ × 4 × 10¹⁴

E = 2.65 × 10-¹⁹J

λ = hc/E

λ = 6.626 × 10-³⁴ × 3 × 10⁸/2.65 × 10-¹⁹

λ = 1.988 × 10-²⁵/2.65 × 10-¹⁹

λ = 7.5 × 10-⁷m

Therefore, 7.5 × 10-⁷m is the wavelength of the photon.

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7.89 g of NaCl is required to bring sodium ion concentration to 0.135 m.

Given:

The molality of NaCl in the given volume of blood=0.135 mol/ kg

1 mol of NaCl contains 1 mol of sodium ion.

Thus, 0.135 mol of sodium chloride is needed to give out 0.135 moles of sodium ion.

Therefore, the mass of sodium chloride needed=moles x molar mass=0.135 mol x 58.44 g/mo

l=7.89 g

What is molality?
The molality (m) is defined as the amount of solute (in moles) present in 1 kg solvent. It is calculated by dividing the moles of solute by the mass of the solvent (in kg). For example, a solution with a molality of 1 mol/kg is often described as 1 molal or 1 m.

Hence, 7.89g of NaCl would be needed.

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Percentage ionization of ethylamine is 4%.

The portion of the original chemical that has undergone ionization is the percent ionized. So, we contrast the ion's concentration in solution with the neutral species' initial concentration.

Given,

Concentration of ethylamine =0.427 m,

Concentration of calcium hydroxide = 0.113 m,

As ethylamine(CH₃CH₂NH₂) is a weak base, it will not in equilibrium,

CH₃CH₂NH₂  ⇆ CH₃CH₂NH₃⁺ + OH⁻

also from CaOH₂ ; OH⁻ ions are coming which will show common ion effect

CaOH₂ → Ca⁺ + 2OH⁻

0.113         -           -

-                0.113     0.113×2

                             =0.226

Now,  CH₃CH₂NH₂  ⇆ CH₃CH₂NH₃⁺ + OH⁻

c - cα                                 cα  + 0.226 ≈ 0.226

Kₐ = [ OH⁻] [CH₃CH₂NH₃⁺]/[CH₃CH₂NH₃⁺]

    =[tex]\frac{c\alpha \times 0.226}{c-c\alpha}\\[/tex]

     = [tex]\frac{\alpha\times 0.226 }{c- c\alpha} \\[/tex]

0.01= α ×0.226

α= [tex]\frac{0.01}{0.226}[/tex]

α=0.44

now percentage ionization = 4%.

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Answer:

b. nitrogen and phosphorus

Explanation:

Elements in the same column of the Periodic Table have similar chemical properties. Both N and P are in the same column.

The equator is warmer because of the greater angle at which the sun's rays strike Earth's surface at the equator i.e. option D.

What do you mean by the Equator?

An Equator is a hypothetical line that circles a planet or other celestial body in the center.

As the climate at the poles is cooler than that close to the equator. This is because  Sun's rays are impinging at an angle on high latitudes due to the curvature of the Earth.

This is because as you walk away from the equator, the Earth's surface gradually tilts away from the sun (the sun is lower on the horizon).

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Answer:

True

Explanation:

The answer is True if it's wrong forgive me if its right heart it.

It mimics alkali metals in several of its characteristics, such as its ease in forming cations.

Chemical element hydrogen has the atomic number 1 and the letter H after it. It is a diatomic gas with the chemical formula H2 that is colorless, odorless, nonmetallic, tasteless, and extremely combustible.

Because it shares some characteristics with alkali metals, such as the ability to form cations easily, hydrogen can be placed in both groups 1 and 17 of the periodic table. However, because it also shares characteristics with halogens, such as the ability to form H2, hydrogen can also be placed in group 17. While hydrogen can take electrons, it also has a propensity to reject them in order to maintain stability. It is the family's tiniest member.

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The arrangements of the molecules of a solid, liquid and gas  as follows

1. Solid: In this state of matter, the particles are closely bonded to each other. This means that they are closely packed in a system and the arrangement is regular. The intermolecular space between the particles is minimum.

2. Liquid: In this state of matter, the particles are not so closely packed. The arrangement between the particles is not regular. The intermolecular spacing between the particles is more than solid but less than gaseous state.

3. Gases: In this state of matter, the particles are very far away from each other and the arrangement is not regular. The intermolecular spacing between the particles is very much in case of gases.

The solid, liquid, and gaseous phases of matter are the three basic states of matter.

Every item we encounter every day—from ice cream to chairs to water is composed of matter. Based on intermolecular forces and the arrangement of the particles, matter can be divided into distinct states such as solid, liquid, and gas. By altering specific environmental variables, these three types of matter can change their state of matter (increasing or decreasing pressure and temperature, for instance). For instance, raising the temperature will cause ice to melt from a solid state.

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A certain red light has a wavelength of 680 nm. then, The frequency of the light is 4.4×10^14 s^-1 .

Given,

A certain red light had a wavelength = 680nm

frequency is given by,

f =c/λ

where, f = frequency

c = speed of light = 3×10^8 m/s

λ = wavelength = 680nm

f = (3×10^8 ) /(680× 10^-9 )

f = 0.0044×10^17 = 4.4×10^14 s^-1

Hence, the frequency of the light is 4.4×10^14 s^-1 .

The distance between the two crests or troughs of the light wave is known as the wavelength of light. Using the Greek letter lambda (), it is identified. As a result, wavelength refers to the separation between one wave's crest or dip and the following wave.

The formula for wavelength is given by,

wavelength= speed of light /frequency

According to the definition of frequency, it is the quantity of full wave cycles that pass a spot in a unit of time.

Hertz is the SI unit for frequency (Hz).

The number of full oscillations that any wave element makes in one unit of time is the frequency of a sinusoidal wave.

Frequency is in periodic motion; after going through a number of different situations or postures and then returning to its initial place, it has completed one cycle.

The reciprocal of a wave's period is equal to the wave's frequency.

The frequency mathematical expression is:

frequency = speed of light / wavelength

The length of time it takes for any string element to complete an oscillation is known as a wave's oscillation period.

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150.0 g of a metal sample heated to 75.0 oC is introduced to 150.0 g of water heated to 15.0 oC. In a sealed, dark container, the water's temperature rises to 18.3 oC. The metal's specific heat is 0.24 J/g of temperature.

Specific heat is the amount of energy needed to raise a substance's temperature by one degree Celsius per gramme. Typically, the units of specific heat are calories or joules per gramme per degree Celsius. The specific heat of water, for instance, is 1 calorie (or 4.186 joules) per gramme per degree Celsius. In the 18th century, the Scottish scientist Joseph Black noted that equivalent masses of various substances required varying quantities of heat to elevate them across the same temperature range. Based on this discovery, he developed the theory of specific heat. Early in the 19th century, French physicists Pierre-Louis Dulong and Alexis-Thérèse Petit proved that calculating a substance's atomic weight is possible by measuring its specific heat (see Dulong-Petit law).

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The mass of the water in the beaker is 11.9 grams. The energy needed to convert the mass is 3748.5 J. The total energy needed to vaporize the water is 6997.2 J.

Energy is defined as the quantitative property that is imparted to a body or physical system and is visible in the performance of work as well as in the form of heat and light.

There are basically two types of energy.

Formula for calculating the mass is

q = mcΔT

m = q / cΔT

m = 1100 J / 4.2 J / g °C x (47-25°C)

m = 11.9 grams

The energy can be calculated as

q = 11.9 g x 4.2 J / g °C x (100 - 25°C)

q = 3748.5 J

The total energy is

q = 11.9 g x 4.2 J / g °C x [120-(-20°C)]

q = 6997.2 J

The amount of heat removed is

q = 2.76 g x 4.2 J / g °C x (100 - 25)

q = 869.4 J

Thus, the  mass of the water in the beaker is 11.9 grams. The energy needed to convert the mass is 3748.5 J. The total energy needed to vaporize the water is 6997.2 J.

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Answer:

Coductivity

Explanation:

Because heat conducts to them!

- 68.385 kJ amount of heat will be released when 50.0 g of ammonia is condensed at –33 °C.

The standard enthalpy of vaporization of ammonia = 23.3 kJ/mol

This means the energy required to vaporize one mole of ammonia at its boiling point = -33 °C

Let's calculate the heat released when 50.0 g of ammonia is condensed at -33 °C.

The heat released is the opposite of the enthalpy of vaporization i.e Q = -23.3 kJ/mol (-ve sign indicates the reaction is exothermic)

We are given

Mass of ammonia m(NH₃) = 50.0 g

Number of moles of ammonia n(NH₃) = 50.0 g ÷ 17.031 g/mol.

n(NH₃) = 2.935 mol

The amount of heat released when 2.935 mol moles condensed at -33 °C

Q = Hv x n(NH₃).

Q = 23.3 kJ/mol x 2.935 mol

Q = - 68.385 kJ

Thus, -68.4 kJ amount of heat is released when 50 g of ammonia is  condensed at -33 °C,  where negative sign signifies release of heat.

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The experimental value has a 0.278 % error when compared to the literature / actual value.

The absolute value of the difference between the measured or the experimental value and the literature or actual value is multiplied by 100 and divided by the actual value to get the percent (%) error calculation.

Serious repercussions might happen if the analysis contains a significant inaccuracy. Analytical chemistry is built on the principles of precision, repeatability, and dependability.

The following actions can help reduce % error: guarantee that observers and measurement takers have received enough training. Use the most precise measuring device for taking the reading. Measurements must be recorded in a controlled environment. Test your measurement equipment on a pilot.

Given:

1 mol of H2 = 2.02g

To find:

% error = ?

Formula:

% error = (experimental value – literature value) / literature value x 100

Calculations:

Recall that, at STP

most gases will occupy 22.4L if they are ideal gases

Therefore,

Density = Mass / Volume

Density = 2.02g / 22.4L = 0.09017g/L

This is the experimental value for density of H2

Literature value = 0.08992g/L

% error = (0.09017 - 0.08992) / 0.08992 x 100 = 0.278% error

Result:

The % error is found to be 0.278%.

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Answer:

An orbit is a regular, repeating path that one object in space takes around another one.

The hydrolysis of  ATP into ADP and inorganic phosphate is an exergonic reaction that drives many endergonic reactions in a cell.

Adenosine triphosphate (ATP) is a molecule that can store chemical energy in high-energy phosphoanhydride bonds. These bonds can be split to release chemical energy, for example in muscles. This process is known as ATP hydrolysis.

ADP has a higher entropy than ATP, which is a measure of chaos. The reaction therefore happens spontaneously because it desires to be at a higher entropy level owing to thermodynamics. Additionally, ATP has a greater Gibbs free energy value than ADP.

In order to proceed, an endergonic reaction needs free energy. Photosynthesis is an instance of an endergonic process of biological importance.

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The balanced reaction equation for this redox reaction is:

4NO(g) + O₂(g) → 2N₂O₃(g)

The rate of [NO] decreasing is 1.054 M/s.

This is a redox reaction, so to balance it, we need to identify which elements change their oxidation state. Obviously, nitrogen is oxidized from +2 (N²⁺O²⁻) to +3 (N⁺³₂O²⁻₃), and oxygen is reduced from 0 (O⁰₂) to -2.

N²⁺ → N⁺³ + e⁻

O⁰₂ + 4e⁻ → 2O²⁻

In order for the number of electrons released and taken to be the same, we  need to multiply the number of nitrogens by 4:

4N²⁺ → 4N⁺³ + 4e⁻

O⁰₂ + 4e⁻ → 2O²⁻

We can now apply these numbers to the reaction equation:

4NO(g) + O₂(g) → 2N₂O₃(g)

With the balanced reaction equation, we can see that 4 moles of NO produce 2 moles of N₂O₃. So if 0.527 M were produced in a single second, the rate of NO decreasing would be 2 * 0.527 M = 1.054 M/s.

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FeO + Fe3O3 + 1/2O2 → 2Fe203

→ Molar mass of Fe2o3 = 159.69g/mol

→ Molar mass of FeO = 71.84g/mol

→Molar mass Fe3o4 = 231.53g/mol

1. first of all , let consider the amount of Fe in Fe2O3

Atomic Mass of Fe = 58.845 g/mol

Percentage of Fe in Fe2)3 = ( 2 x mass of Fe / Molar Mass Fe203) = 2x(55.845) /159.69g/mol

= 0.6994 * 100 = 69.94 %

2. Mass of Fe in 4.195g of Fe2O3 will then be :

0.06994 * 4.195g = 2.934 g

3.(i) percentage of Fe in FeO = (55.845 / 71.84g/mol ) = 0.77735* 100 =77.735

(ii)percentage of Fe in Fe3O4 = (3x 55.845)/231.53g/mol= 0.72359*100 =72.359

(remember , we only have molar mass of FeO as well as molar mass for Fe3O4 , we do not have their mass)

4. so we will say; let x be the mass for Fe3O4

and ; let y be the mass of FeO

However , the mass of FeO and FeO3O4 must equal 3.970 as given in the question.

meaning x +y = 3.970; therefore x = (3.970-y)

But, we also know from the above percentage calculations; that :

• Mass of Fe in FeO = 0.77735 = 0.77735 ,y

• Mass of Fe in Fe3O4 = 0.72359 = 0.72359,x

5. now lets solve for x and y by equating the above:

0.77735 y + 0.72359x =2.934 g

0.77735 y + 0.72359(3.970-y) =2.934 g

solving for y; you will get :

0.07735y + 2.8726 -0.72359y = 2.934

0.05385y = 0.061347

therefore y = 1.142 g = mass of FeO

Finally :

Mass percentage= (Mass FeO /given mass of the mixture ) * 100

= 1.142g/3.970 *100

= 28. 7 %

Answer:

PE=mgh

m=mass

g=gravity

h=height

Hello. The answer should be like this in below.

The variable "[tex]m[/tex]" represents the mass. It is a constant value for every substance and is assumed not to change over time.

The variable "[tex]g[/tex]" is the acceleration of gravity. It has a constant value and the numerical value of the gravitational constant for the planet we live on (Earth) is [tex]9.81m/s^2[/tex].

The variable "[tex]h[/tex]" is the distance between sea level and the center of mass of the object. (Height) The unit is meter.

Answer:

D. They have the same number of protons as electrons.

Explanation:

Protons are found in the nucleus of the atom and have a positive charge while electrons orbit around the nucleus and have a negative charge. Usually, in a neutral atom of an element, the number of protons is equal to the number of electrons. This is why the atom has no charge because the positive and negative charges cancel out. When an atom loses an electron its charge turns positive while when it gains an electron its charge turns negative.