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Complete and balance the following equation: Cd(NO3)2 + NH4Cl

((Include explanation please! I cant find how to do it and I need the explanation...))

D. circuit breaker

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In this case there are 3 significant figures.

Any zeroes after another number, (i.e. 9300.000), you consider these numbers.  

If there is something like 0.0060, this would be two significant digits.  

Zeroes before a number are not significant, anything after are.  

Hope this helps any confusion!

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Answer:

3 significant figures

Explanation:

The rules for deciding which digits in a measurement are significant are as follows:

1) All nonzero digits are significant.

2) Sandwiched (or embedded) zeros, those between significant digits, are significant.

3) Leading zeros, which are zeros at the beginning of a decimal number less than 1, are not significant.

4) Trailing zeros, which are zeros at the end of a number, are significant only if the number has a decimal point.

By rule 4 since 60.0 has a decimal point all 3 figures are significant

I think it would either be (A) or (B)

It would slow down or stay constant - but it wouldn't speed up.

I think the answer is C. because I got this question wrong when I picked answer choice B. And it would be impossible for the ball to speed up.

The mass of 2.80 grams of h2o is 18.02 amu I believe

Hi,

An isosceles triangle is a triangle containing two sides of same length & one side of larger length.

Suppose we have a  isosceles triangle ABC as depicted in the figure attached.

Here we see that side AB is equal to the side BC

The angle at point  A is same as the angle at point C that is almost 45 degrees, Moreover, triangle BDC and ABD are also isosceles.

                       If: BD=AD=x , then , BD=DC=x

We can see in the figure that AC is equal to AD+ DC

Which means,                  AC= x+ x= 2x

Now we need to find out the length of AB, here we will use Pythagorean Theorem.

                                    AC^2 = AB^2 + BC^2

Since BC= AB, so we can write it as:

                                    AC^2 = 2AB^2

Taking sq. root on both sides

                                        AC= 2AB

                                        AB= AC/√2

Putting the value of AC as 2x

                                        AB=  2x/√2

Which means                 AB= x√2

Therefore,the length of one leg of the large right triangle in terms of x will be x√2

Hope it helps!

Answer:

X square root 2

Explanation:

Hello hello hello! I am taking this quiz right now and will take it down if it is wrong and correct it, but I think it is right!

Shrimp burrow which is one of the examples of trace fossils.

Answer:

Option (1)

Explanation:

Trace fossils are defined as those traces such as the impressions and signs of ancient remains of an organism, that are found over relatively softer sediment.  

These play a very important role in the field of paleontology as it provides information about the ancient organism that lived in the past in a particular location.

Some of the examples of trace fossils are track and trails, burrows, footprints, cast and mold.

Shrimp burrows are an example of trace fossils, which are made by the marine organisms named shrimps, that are usually found at the bottom of the ocean.

Thus, the correct answer is option (1).

When light with a continuous spectrum (emitted by a black body) passes through a cool transparent gas, dark lines are observed in the continuous spectrum.

Answer is dark lines

When light from a black body having a continuous spectrum passes through a cool transparent gas, observed in the continuous spectrum are absorption and emission.

The black body is an object or material of black color which absorbs the lights of every type of wavelength either it is blue of the lowest wavelength or red of the highest wavelength.

The radiation emitted by a black body is called the radiation of a black body. The stars almost act like a black body. The amount of radiation emitted by the length of each wavelength depends only on the temperature of the object.

Therefore, light from a blackbody having a continuous spectrum passes through a cool transparent gas, observed in the continuous spectrum are absorption and emission.

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Answer : The change in internal energy is, 900 Joules.

Solution : Given,

Heat given to the system = +1400 J

Work done by the system = -500 J

Change in internal energy is equal to the sum of heat energy and work done.

Formula used :

[tex]\Delta U=q+w[/tex]

where,

[tex]\Delta U[/tex] = change in internal energy

q = heat energy

w = work done

As per question, heat is added to the system that means, q is positive and work done by the system that means, w is negative.

Now put all the given values in the above formula, we get

[tex]\Delta U=(+1400J)+(-500J)=900J[/tex]

Therefore, the change in internal energy is 900 J.

The change in internal energy depends on the heat energy and work done. As we will change in the heat energy and work done, then changes  will occur in the internal energy. Hence, the energy is conserved.

Polar Covalent is the name used to describe bonds that have both ionic and covalent character because the electrons are shared unequally. The Pauling Scale is used to assign electronegativity to atoms. It ranges from to 4.00 (fluorine).

Final answer:

The electronegativity difference between two atoms in a bond determines the ionic or covalent character of the bond. A greater difference in electronegativity indicates a more polarized electron distribution and larger partial charges of the atoms. Small or zero electronegativity differences indicate nonpolar covalent bonds.

Explanation:

The electronegativity in the determination of the ionic or covalent character of a bond is calculated by finding the difference in electronegativity between the two atoms in the bond. Electronegativity is a measure of the tendency of an atom to attract electrons towards itself in a chemical bond. The greater the difference in electronegativity, the more polarized the electron distribution and the larger the partial charges of the atoms. If the electronegativity difference is very small or zero, the bond is covalent and nonpolar. When the difference is large, the bond is polar covalent or ionic.

Answer:

55.0 g/mol

Step-by-step explanation:

Step 1. Partial pressure of hydrogen

You are collecting the gas over water, so

[tex]p_{\text{atm}} = p_{\text{H}_{2}} + p_{\text{H}_{2}\text{O}}[/tex]

[tex]p_{\text{H}_{2}} = p_{\text{atm}} - p_{\text{H}_{2}\text{O}}[/tex]

[tex]p_{\text{atm}} = \text{756.0 Torr}[/tex]

At 25 °C,[tex]p_{\text{H}_{2}\text{O}} = \text{23.8 Torr}[/tex]

[tex]p_{\text{H}_{2}} = \text{756.0 Torr} - \text{23.8 Torr} = \text{732.2 Torr}[/tex]

===============

Step 2. Moles of H₂

We can use the Ideal Gas Law.

pV = nRT                                       Divide both sides by RT

n = (pV)/(RT)

p = 732.2 Torr                               Convert to atmospheres

p = 732.2/760  

p = 0.9634 atm

V = 291 mL                                     Convert to litres

V = 0.291 L

R = 0.082 06 L·atm·K⁻¹mol⁻¹

T = 25 °C                                        Convert to kelvins

T = (25 + 273.15 ) K = 298.15 K    

n = (0.9632 × 0.291)/(0.082 06 × 298.15)      

n = 0.2804/24.47

n = 0.011 46 mol

===============

Step 3. Moles of metal

The partial chemical equation is

M + H₂SO₄ ⟶ H₂ + …

The molar ratio of M:H₂ is 1 mol M:1 mol H₂.

Moles of M = 0.011 46× 1/1

Moles of M = 0.011 46 mol M

===============

Step 4. Atomic mass of M

Atomic mass = mass of M/moles of M

Atomic mass = 0.630/0.011 46

Atomic mass = 55.0 g/mol

The nuclear charge of lithium-6 and lithium-7 is +3 for both isotopes. This is because both isotopes have 3 protons. The difference in isotopes lies only in the number of neutrons.

To understand the nuclear charge of lithium isotopes, it is essential to know that the nuclear charge (Z) is determined by the number of protons in an atom. Lithium, regardless of its isotope, always has 3 protons. Therefore, the nuclear charge of lithium-6 is +3 and the nuclear charge of lithium-7 is also +3.

Here's a brief description of both isotopes:

Regardless of the difference in their neutrons, the nuclear charge remains the same for both isotopes because the nuclear charge depends solely on the number of protons present.

H2O2 i think this is it

H2O2 i believe is the answer sorry if im wrong

Answer is: A.) R represents chemical energy, P represents thermal energy.

A natural gas stove transforms R energy into P energy.

For example methane is natural gas.

Balanced chemical reaction of methane combustion:

CH₄(g) + 2O₂(g) → CO₂(g) + 2H₂O(g) ΔH = -802.3 kJ.

This is exothermic reaction, energy is released in form of heat.

The law of conservation of energy states that the total energy of an isolated system remains constant; energy can neither be created nor destroyed; it can only be transformed or transferred from one form to another.

C. Rapping, is your answer.

Long, the ocean tides we experience on earth are caused by the sum of the moon's gravitational gradient and the sun's gravitational gradient. When the sun and the moon are aligned, or nearly aligned, their gravitational gradient fields add together constructively, leading to extra strong tides (high tide is extra high and low tide is extra low). This alignment happens when the moon is a new moon or a full moon, which occurs about every two weeks. The moon takes about a month to orbit the earth, hence strong tides occur about twice a month. In contrast, when the sun and the moon are unaligned, their gravitational gradients tend to cancel out, leading to weak tides (high tide is not very high and low tide is not very low). But even when the sun and moon are perfectly unaligned (they form a 90 degree angle relative to the earth), there are still tides because the moon's gravitational gradient is stronger than the sun's. The sun's gravitational gradient never completely cancels out the moon's. The biweekly strong tides are called "spring tides" even though they occur all year long. The name does not refer to the season "Spring", but to the verb "spring" which means to leap forth, because the strong high tides leap higher up the shore. The biweekly weak tides are called "neap tides".

The Sun and Moon's gravity causes Earth's tides, with the Moon having a greater effect due to its proximity. Spring tides happen when the Earth, Moon, and Sun are aligned, and neap tides occur when the Sun and Moon are at a 90° angle.

The gravity of the Sun and the Moon significantly affects the Earth's tides through a phenomenon known as the tidal effect. Although the gravitational pull of the Sun is nearly 200 times that of the Moon, the tidal effect of the Moon is stronger because of its closer proximity to Earth. The gravitational forces of these celestial bodies cause bulges in Earth's oceans, creating high tides on the sides of Earth closest and farthest from the Moon, and to a lesser extent, from the Sun. This variability in high tides is due to the different positions of the Sun and Moon relative to Earth. The largest tides, known as spring tides, occur when the Earth, Moon, and Sun are aligned, while the smallest tides, neap tides, happen when the Sun and Moon are at 90° angles relative to Earth.

[tex]W_{I}= F_{I}[/tex]×[tex]D_{I}[/tex]

where [tex]W_{I}[/tex] is the work input

[tex]F_{I}[/tex] is effort force or force input

[tex]D_{I}[/tex] is the input distance

Answer:

D

Explanation:

electromagnet STUDY ISLAND :)

Electromagnetic waves best describes the signals sent and received by satellites. Therefore, the correct option is option D.

In classical physics, electromagnetic radiation refers to the movement of energy through a material medium or across empty space at the speed of light in the form of the magnetic and electrical fields that comprise up electromagnetic waves like electromagnetic radiation, visible light, including gamma rays.

Time-varying magnetic and electric fields are linked to one another at right angles or perpendicular towards the direction that of motion in such a wave. The strength and wavelength v of the time fluctuation of the magnetic and electricity fields define an electromagnetic wave. Electromagnetic waves best describes the signals sent and received by satellites.

Therefore, the correct option is option D.

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It's internal energy or heat energy.

1. c. ionic___ NaCl .  

2. a.covalent___CO2

3. b.metallic ___ZnCu

Mass is calculated by using an objects inertia. Since inertia is a quality of matter that resists motion, we can apply an increasing force to an object until it accelerates.

Then, by measuring its acceleration we can now determine its mass using the simple equation F=m×a, except rewritten as m=Fa.

So we divide the force that we applied by the acceleration rate and we get the objects mass.

Without inertia this cannot be done.

∴ Answer is C

The true statement among the options is C, stating that the mass of an object can be measured by its inertia. This highlights the direct relationship between an object's mass and its inertia, distinguishing mass from weight, which is gravity-dependent.

The question asks to choose the TRUE statement from the given options regarding mass, weight, and inertia. The correct answer is C. The mass of an object can be measured by its inertia. This statement is true because mass is a measure of the amount of matter in an object and determines its inertia - i.e., its resistance to changes in motion. Newton's first law, often called the law of inertia, illustrates that objects with more mass (more "stuff") have more inertia. Hence, an object's mass, an intrinsic property that does not change with location, can indeed be measured by its inertia. Weight, however, is the force of gravity acting on an object and can vary based on the object's location in a gravitational field.

Correct answer is: A

Answer: The correct answer is Option A.

Explanation:

We are given some ions, which are:  [tex]Na^+,PO_4^{3-},V^{3+}\text{ and }Cl^-[/tex]

The compounds which may be formed from these ions will be [tex]Na_3PO_4,NaCl,VPO_4\text{ and }VCl_3[/tex]

Precipitates are defined as the substances which are not soluble in water at any temperatures. They remain undissolved in water.

Out of the formed salts, the soluble ones are [tex]Na_3PO_4,NaCl\text{ and }VCl_3[/tex]

[tex]VPO_4[/tex] remains insoluble in water and thus, the correct answer is Option A.

Answer is: qcalorimeter is 8635.9273 J.

ΔT= 22.35°C - 18.94°C.

ΔT = 3.41°C = 3.41 K; temperature change.  

m(H₂O) = 600.0 g; mass of water.  

mr = 605.0; mass of solution.

cp= 4.186 J/g·K, specific heat capacity of the solution.  

qcal = mr · ΔT· cp.  

qcal = 605 g · 3.41 K · 4.186 J/g·K.  

qcal = 8635.9273 J; amount of heat absorbed.

Amount of heat absorbed of calorimeter when 5g of NaHCO₃ is added to 600g of water in a ‘coffee cup calorimeter' is 700,396.4968 J.

Amount of absorbed heat will be calculated as:
Q = mcΔT, where

ΔT = change in temperature = 22.35°C - 18.94°C = 3.41°C = 276.56 K

m = mass of solution = (5g + 600g) = 605g

c = specific heat of calorimeter = 4.186 J/g.K

On putting these values on the above equation, we get

Q = (605)(4.186)(276.56)

Q = 700,396.4968 J

Hence heat of calorimeter is 700,396.4968 J.

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Answer:

It should be -2; like hydrogen sulfide H2S

Explanation:

The isotope is phosphorus-32.  

It possesses 15 protons that make it phosphorus, 15 electrons, thus, the charges get balanced, and it is electrically neutral. It has 17 neutrons, so in combination, it has 32 protons/neutrons in the nucleus. Therefore, the name is phosphorus-32.  

The phosphorus-32 is a beta-emitter with a half-life of 14.3 days that is, used regularly in life-science projects, mainly to generate radiolabeled RNA and DNA probes, like for application in Southern Blots and Northern Blots.  

Answer:

32P

Explanation:

The answer is "opposite charges."

When clothes are removed from the dryer and cling together, it is because static electricity is created from the clothes rubbing together in the dryer. This results in an imbalance of electrical charge on the clothes, with some having a net positive charge and others a net negative charge, which makes them attract and stick to each other.

When clothes are removed from the dryer and they cling together, this is due to the presence of static electricity. Static electricity occurs when materials are rubbed together, causing an exchange of electrons. This exchange results in the materials being electrically charged. In the case of your dryer, the process of tumbling and rubbing the clothes together can strip electrons from the clothes and deposit them on other pieces.

This creates an imbalance in charge, leading to some clothes having a net positive charge and others with a net negative charge. The positively charged clothes are attracted to the negatively charged ones, and this attraction causes the clothes to stick together. The force that brings these different charged clothes together is called electrostatic force. If the clothes are damp, the presence of water molecules can suppress the charge, reducing the static cling.

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1) Aufbau principle is a scheme used to reproduce the electron configurations  of the ground states of atoms by successively filling subshells with electrons in a specific  order, filling subshells in the following order: 1s, 2s,  2p, 3s, 3p, 4s, 3d, 4p, 5s, 4d, 5p, 6s, 4f, 5d, 6p, 7s, 5f.

First exceptions to the Aufbau principle is for example chromium atom (Cr).

Chromium has atomic number 24, it means it has 24 protons and 24 electrons.

The Aufbau principle predicts the configuration  [Ar] 3d⁴ 4s².

But the correct electron configuration of chromim atom is:

₂₄Cr 1s² 2s² 2p⁶ 3s² 3p⁶ 3d⁵ 4s¹ or   [Ar] 3d⁵ 4s¹.

In chromium, half full d-sub level (3d) is more stable than a partially filled d sub-level (3d⁴), that is why an electron from the 4s orbital goes to a 3d orbital.

2) Second example is gallium atom (Ga).

Gallium has atomic number 31, it has 31 protons and 31 electrons.

The Aufbau principle predicts the configuration:

₃₁Ga 1s² 2s² 2p⁶ 3s² 3p⁶ 3d¹⁰ 4s² 4p¹.

The correct electron configuration for gallium atom is:

₃₁Ga 1s² 2s² 2p⁶ 3s² 3p⁶ 4s² 3d¹⁰ 4p¹.

That is because 3d subshell has lower energy, when is filled with electrons, than 4s subshell.

Valence electrons are in 4s and 4p orbitals, because when gallium loses three electrons, it has electron configuration:

₃₁Ga³⁺ 1s² 2s² 2p⁶ 3s² 3p⁶ 3d¹⁰.

Reactions spontaneous at high temperatures are endothermic with both positive enthalpy and entropy changes, and positive enthalpy change implies an endothermic reaction. In 3A + B yields 2AB, for every two AB produced, three A are required. On a potential energy diagram, activation energy and enthalpy change are found by comparing potential energy of different stages.

If a reaction is only spontaneous at high temperatures, then it must be endothermic, with both positive enthalpy and entropy changes. When a reaction has a positive enthalpy change, this means it's endothermic and heat is added to the system. In response to part 3 of your question, for the reaction 3A + B yields 2AB, it's accurate to say that for every two AB produced, the reaction requires three A.

Now, regarding how to use a potential energy diagram to find out about required activation energy and enthalpy change of a reaction: The activation energy is represented by the difference in potential energy from the reactants to the top-most point (peak) of the diagram.

The enthalpy change of the reaction, on the other hand, is determined by the difference in potential energy between the reactants and the products. If the products have less potential energy than the reactants, the reaction is exothermic; if they have more, the reaction is endothermic.

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In case of heteroatomic molecules there is possibility of difference in electro negativity of the two hetero atoms bonded, this results in development of charges on the two atoms

more electronegative element will have a negative charge

less electronegative element will have a positive charge

Case

a) if the difference is less than 0.4 the molecule is  nonpolar.

b) if the difference is from 0.4 to 1.7 the molecule is  polar covalent.

c) if the difference is more than than 1.7 the molecule ionic (polar).

3+

So, compounds of boron contain boron in a positive oxidation state, generally +3. The sum of oxidation numbers of all constituent atoms of a given molecule or ion is equal to zero or the charge of the ion, respectively. ... In most of the stable compounds of boron, its oxidation number is +3

"The charge oxidation state for boron in its compounds is typically +3.

To understand why boron typically has an oxidation state of +3, one must consider the electron configuration of boron and its position in the periodic table. Boron is the first element in group 13 (IIIa) and has an electron configuration of [tex]1s^2 2s^2 2p^1[/tex]. This means it has three electrons in its outermost shell.

In chemical compounds, boron tends to form three covalent bonds with other atoms to fill its outer shell, achieving an octet configuration similar to that of noble gases. By sharing its three valence electrons with other atoms, boron effectively loses three electrons, which corresponds to an oxidation state of +3.

For example, in the compound boron trifluoride (BF3), boron forms three covalent bonds with fluorine atoms. Each fluorine atom has seven electrons in its outer shell and needs one more electron to complete its octet. By sharing one electron with boron, each fluorine atom completes its octet, and boron, by sharing three electrons, also achieves a stable configuration. In this compound, boron has an oxidation state of +3 because it has effectively lost three electrons to the more electronegative fluorine atoms.

Similarly, in other boron compounds like boron trioxide[tex](B_2O_3)[/tex]or boron nitride (BN), boron also exhibits an oxidation state of +3. This is a characteristic feature of boron's chemical behavior and is a direct consequence of its electron configuration and its position in the periodic table.

B. Physical weathering will cause the ice to crack the rock.

Answer:

The correct answer is B.

Explanation:

The Earth's surface as water freezes and expands on a mountain slope will cause ice to break the rock. This occurs because the ice occupies a larger volume than the liquid, so it displaces the rock and causes it to break. When the water that accumulates in the rocks freezes, its volume increases in solid-state and exerts a greater pressure, enough to break the rock.

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