In carbon NMR, the carbon atom of the carbonyl group in aldehydes and ketones has a chemical shift of about:

Answer:

coefficients increase the products to increase the efficiency of the reaction.Coefficients balance the equation with respect to the law of conversation of mass. coefficients also increases the reactants to help the reaction proceed.

Answer:

C₁₀H₁₂

Explanation:

90.8% of basketane (Hydrocarbon, contains only C and H) is Carbon, and 100-90.8 = 9.2% of the mass is hydrogen.

The molar mass is between 130-140g/mol, That means the moles of Carbon (Using its molar mass, 12.01g/mol) that are in basketane are between:

140g/mol /12.01g/mol *90.8%= 10.58 moles of C.

130g/mol / 12.01g/mol *90.8%= 9.83 moles of C.

As the moles of carbon must be given in a whole number, There are 10 moles of Carbon.

10 moles C * (12.01g / mol) = 120.1g/mol that are 90.8% of the molar mass. Molar mass of basketane is:

100% * (120.1g/mol / 90.8%) =

132.3g/mol.

The part of the molar mass due hydrogen must be:

132.3 g/mol - 120.1g/mol = 12.2 g/mol

As molar mass of hydrogen is 1g/mol, the moles of hydrogen are 12

And molecular formula is:

Answer:

If it's cold it's going to be E, and if it's the hottest it's going to be C.

Explanation:

Answer:

How can you determine which bond in a structure is more polar without using an electronegativity table?

Explanation:

When we say something is polar, it has a very specific meaning. It means that there is a spatial separation of charges, or a dipole moment. In the simplest case, this is given by:

μ=Qr

Where μ is the dipole moment, Q is the charge on each pole (equal and opposite) and r is the distance between the charges.

Anything with charges can have a dipole moment, and therefore be polar. In chemistry, we typically worry about whether or not two things are polar:

Bonds

Molecules

Bond Polarity

Chemists are concerned with the polarity of bonds because polarity affects the character of the bond - the more polar the bond is, the more it behaves like an ionic bond. The less polar, the more it behaves like a covalent bond. This has implications for everything from naming rules to reactivity, but all you need to know for this problem is:

All bonds between two atoms are polar, unless the atoms are identical.

(This is including whatever else the atoms may be bonded to). The only question after that is "how polar is the bond," and that is where tables of electronegativity come in. Using an arbitrarily defined scale, we can measure the relative polarity of bonds by comparing the difference in electronegativity between the two elements.

Molecule Polarity

For molecules, polarity isn't quite so simple. We know that all bonds between dissimilar atoms are polar, but in a molecule, sometimes the dipole moments add up to form a net dipole moment of zero. This is a little bit difficult to explain if you don't have a mathematics and physics background that includes vectors and summations of forces/moments.

If you do, then when I say something like:

The net dipole moment for a molecule is equal to the sum of dipole moments over each bond.

It will make sense to you. If you don't, then you have to get a little more creative. I tell my students to imagine that there are ropes connecting each outer molecule to the central molecule, along each bond. Then imagine pulling each rope towards the side that is more electronegative (has a higher electron density). The more polar the bond, the harder you pull on the rope. Then imagine whether the molecule moves. If the forces balance, it stays put, so the net dipole moment is zero and it is not polar. If it does move, there was a net dipole moment, so it is polar.

This works pretty well - as long as you can visualize the molecular geometry. That's the hard part. To know how the bonds are oriented in space, you have to have a strong grasp of Lewis structures and VSEPR theory. Assuming you do, you can look at the structure of each one and decide if it is polar or not - whether or not you know the individual atom electronegativity. This is because you know that all bonds between dissimilar elements are polar, and in these particular examples, it doesn't matter which direction the dipole moment vectors are pointing (out or in).

Let's look at each one, using wikipedia's geometric pictures.

BrF5

BrF5

As you can see, there is a lone pair at the bottom (this is a square pyramidal geometry). The net dipole moment will be pointing "up", which makes this a polar molecule.

PBr5

PBr5

This one has a trigonal bipyramidal geometry, with each bond symmetrically opposed to each of the others. If you add up the vectors, they result in a net dipole moment of zero. Therefore, it is non-polar.

EDIT: As ron points out in the comments below, this is not really a binary molecular compound, and in reality forms an ionic crystal structure with PBr4+ and Br−. I don't think the author of the question intended you to worry about that, but if they did, the answer is still "non polar," although we wouldn't really call it a "molecule" any more.

CCl4

CCl4

Carbon tetrachloride has a tetrahedral geometry, and all the dipole moment vectors cancel. Therefore, it is non-polar.

XeF2

XeF2

This one is linear - no net dipole moment, so it is non-polar.

XeF4

enter image description here

I could only find the ball-and-stick model for this one. It is square planar - there is a lone pair of electrons (not shown) on each "face" of the square on Xe. There is no net dipole moment, so it is also non-polar.

Out of all of these, the only polar molecule is BrF5 (the first one).

If the net dipole moment is zero, it is non-polar. Otherwise, it is polar.

Answer:

Explanation:

The equation that relates standard Gibbs free energy, ΔG, with equilibrium constant, K, is:

ΔG = -RT ln K

Where R is gas constant, 8.314J/molK, and T is absolute temperatue (30.0°C + 273.15 = 303.15K).

Replacing (110kJ = 110000J):

110000J/mol = -8.314J/molK*303.15K ln K

-43.644 = lnK

1.11x10⁻¹⁹ = K

Answer:

They will repel each other.

Explanation:

According to Coulomb's law, the force between two chargee is directly proportional to the product of the magnitude of the both charges and inversely proportional to their distance apart.

The force of attraction between electric charges may be attractive or repulsive in nature. When two negative charges are placed in close proximity to each other, they repel each other because like charges repel each other.

Answer:

1. Density of metal object = 11000 kg / m3.

2. Could the object be gold = No,because the density of gold is 19300 kg / m3.

Answer:

Hey!I will try to help with the ones I know.

solubility is a means of comparing the extent to which different solutes can dissolve in a particular solvent at a definite temperature.

A saturated solution of a solute at a particular temperature is one which contains as much solute as it can dissolve at that temperature in the presence of undissolved solute particles....

This is what I know I hope it helps you

Answer:

I think the teacher was supposed to tell u the answer to that

Answer:

Weigh less than 61.9 g

Explanation:

The symbol V represents the element Vanadium and He represents Helium.

Generally, 1 mol of any atom contains 6.022 * 10^23 atoms. This means we have to find the number of moles of each elements.

For V;

Number of moles = Mass / Molar mass = 61.9 / 50.94 = 1.215 mol

1 mol = 6.022 * 10^23 atoms

1.215 = x

Number of atoms = 6.022 * 10^23 * 1.215 =7.317 * 10^23

For He;

Since equal number of moles contain equal number of atoms;

Number of mol of He = 1.215 mol

Number of moles = Mass / Molar mass

Mass = Molar mass * Number of moles = 4 * 1.215 = 4.86 g

This means it would weigh less.

Answer:

XeF4 has two unbounded pairs of electrons and four bonded pairs of electrons on its valence shell

Explanation:

XeF4 is a square planar compound with Xe-F distance of about 1.95 angstroms. The compound has six electron pair domains on its outermost shell. Four bond pairs occupy four corners of a square to give a square planar geometry while two electron pairs are found above and below the plane of the square.

Hence the molecule is square planar.

Answer:

Hydrogen gas

Explanation:

K +H2O=KOH+ H2

Test for hydrogen gas:

Light a splint and put it in the smoke present. If it makes a pop sound, that means hydrogen is present

Answer:

AgBr

Explanation:

The salt, AgBr has a very low solubility is pure water. However, it has a high solubility in 1 M NH3. The reason behind this higher solubility of AgBr in 1 M aqueous ammonia solution is the formation of a complex as shown below;

AgBr(s) + 2NH3(aq) ----> [Ag(NH3)2]^+(aq) + Br^-(aq)

The formation of this linear silver diammine complex accounts for the higher solubility of AgBr in 1 M aqueous ammonia solution.

Answer:

A rover

I hope this helps!

Answer:

The reason is because Charle's Law which states that volume is directly proportional to temperature. So, for the temperature to be absolute zero, there would need to be no volume. It's Impossible.

Explanation:

Answer:

D) both groups are equatorial.

Explanation:

To solve this question we can start by drawing the molecule in using the structure of the hexagon. In this structure, we have the methyl group on carbon 1 and the terbutyl group on carbon 3, additionally, if we have a cis structure both groups must have the same type of bond (in this case the wedge bond).  (See figure 1)

When we write the chair structure, we must keep the same structure. That is, methyl must be on carbon 1 and terbutyl on carbon 3. Also, the cis configuration must be maintained. With this in mind, we can choose the equatorial configuration for methyl on carbon 1 (since the position equatorial is the one that has less steric impediment and more stability). If this is true for carbon 1, we must place the terbutyl group on carbon 3 in the same configuration (i.e. cis). Therefore, on carbon 3 we must place the tert-butyl down on carbon 3, that is, in the equatorial position.  (See figure 1).

Therefore, in the chair-like structure, both groups must be in an equatorial position.

I hope it helps!

Answer:

-1.05 V

Explanation:

At the anode;

Sn(s) -----> Sn^2+(aq) + 2e

At the cathode;

Mn^2+(aq) + 2e ------> Mn(s)

Given that it is an electrolytic cell,

E°cell= E°cathode - E°anode

But;

E°cathode= -1.19 V

E°anode= -0.14 V

E°cell= -1.19-(-0.14)

E°cell= -1.05 V

Therefore

Vmin = -1.05 V

Answer:

The principal quantum number for the outermost electrons in a Te atom in the ground state is 5

Explanation:

In quantum chemistry, the region of maximum probability of where an electron is located is sometimes referred to as cloud or orbital.

The principal quantum number is used to express the state of an electron

The principal quantum number for the outermost electrons in a Te atom in the ground state is 5

The atomic number of Tellurium Te is Kr 4d¹⁰ 5s² 5p⁴

so quantum no is 5

Answer:

6,000kg/m3

Explanation:

6.00g/1cm3 x 1kg/1000g x 1cm3/0.000001m3

= 6.00kg/0.001m3

= 6,000kg/m3

Answer:

6.1 kg

Explanation:

To obtain the total mass of the sample, we must first express each mass of the sample in the same unit of measurement.

Since the SI unit of mass is kilogram (kg), we shall express the total mass of the samples in kilogram (kg).

This is illustrated below:

Mass of the samples are:

M1 = 0.6160959 kg

M2 = 3.225 mg

M3 = 5480.7 g.

Conversion of 3.225 mg to kg

1 mg = 1×10¯⁶ kg

Therefore,

3.225 mg = 3.225 × 1×10¯⁶

3.225 mg = 3.225×10¯⁶ kg

Conversion of 5480.7 g to kg

1000 g = 1 kg

Therefore,

5480.7 g = 5480.7 /1000

5480.7 g = 5.4807 kg

Thus, we can obtain the total mass of the samples as follow:

M1 = 0.6160959 kg

M2 = 3.225×10¯⁶ kg

M3 = 5.4807 kg

Total mass =?

Total mass = M1 + M2 + M3

Total mass = 0.6160959 + 3.225×10¯⁶ + 5.4807

Total mass = 6.096799125 ≈ 6.1 kg

Therefore, the total mass of the samples is approximately 6.1 kg.

Answer:

2667 tires are needed to meet the demand of ten homes for one year.

Explanation:

According to the Second Law of Thermodynamics, only a part of generated energy when tires are burned can be utilized due to irreversibilities associated with finite temperature differences. The energy from a tire that can be transformed into electricity ([tex]E_{out}[/tex]), measured in kilowatt-hours, is estimated by definition of efficiency:

[tex]E_{out} = \eta \cdot E_{in}[/tex]

Where:

[tex]\eta[/tex] - Efficiency, dimensionless.

[tex]E_{in}[/tex] - Energy liberated by burning, measured in kilowatt-hours.

Given that [tex]\eta = 0.5[/tex] and [tex]E_{in} = 75\,kWh[/tex], the amount of energy per year generated by a tire is:

[tex]E_{out} = 0.5\cdot (75\,kWh)[/tex]

[tex]E_{out} = 37.5\,kWh[/tex]

Now, the amount of tires needed to meet the demand of then homes for one year is:

[tex]n = \frac{(10\,homes)\cdot \left(10000\,\frac{kWh}{home} \right)}{37.5\,\frac{kWh}{tire} }[/tex]

[tex]n = 2666.667\,tires[/tex]

2667 tires are needed to meet the demand of ten homes for one year.

Answer:

Explanation:

Density of a substance can be found by using the formula

[tex]Density = \frac{mass}{volume} [/tex]

Making mass the subject we have

[tex]mass = Density \times volume[/tex]

From the question

Density = 2.70 g/cm³

We assume that the aluminum is a cuboid

and volume of a cuboid is given by

Volume = length × width × height

length = 5.3 cm

width = 0.32 cm

height = 2.34 cm

Volume = 5.3 × 0.32 × 2.34 = 3.97 cm³

Substitute the values into the above and solve for the mass

We have

mass = 2.70 × 3.97

We have the final answer as

Hope this helps you

Answer:

0.1935atm is the pressure of the gas.

Explanation:

In the problem you have the mass of Neon (You can obtain moles using molar mass), you have volume, and temperature. You can use general ideal gas law to solve pressure:

PV = nRT

P = nRT / V

Where P is pressure in atm, n are moles, R is gas constant (0.082atmL/molK), T is absolute temperature (20.0°C + 273.15 = 293.15K), and V is volume in L = Volume in dm³

Moles gas:

Molar mass Ne = 20.1797g/mol

0.325g * (1mol / 20.1797g) = 0.0161 moles

Replacing:

P = nRT / V

P = 0.0161 moles * 0.082atmL/molK * 293.15K / 2L

P = 0.1935atm is the pressure of the gas

Explanation:

Maybe this answer is helpful for you... Any questions regarding the answer.. U can ask me.. ☺️

Answer:

-2.79 × 10³ cal

Explanation:

Step 1: Given data

Step 2: Calculate the heat required to freeze 35.0 g of water

We have 35.0 g of liquid water and we want to freeze it, that is, to convert it in 35.0 g of ice (solid water), at 0 °C (melting point). We can calculate the heat (Q) that must be released using the following expression.

Q = L × m

Q = -79.7 cal/g × 35.0 g

Q = -2.79 × 10³ cal

The heat in calories required to freeze 35.0g of water of water is 2.79 × 10³ cal.

Q = L × m

Where;

According to this question;

Q = L × m

Q = -79.7 cal/g × 35.0 g

Q = -2.79 × 10³ calories

Therefore, the heat in calories required to freeze 35.0g of water of water is 2.79 × 10³ cal.

Learn more about how to calculate heat at: https://brainly.com/question/21122443

Answer:

pH = 7.51

Explanation:

The pKa of the HClO/NaClO buffer is 7.46. To determine the pH of this buffer we can use H-H equation:

pH = pKa + log [A⁻] / [HA]

pH = 7.46 + log [NaClO] / [HClO]

Where [] is molarity -or moles- of each compound

Initial moles of HClO and NaClO:

HClO: 0.100L * (0.175mol / L) = 0.0175 moles HClO

NaClO: 0.100L * (0.150mol / L) = 0.0150 moles NaClO

Now, HClO reacts with NaOH producing NaClO:

HClO + NaOH → NaClO + H₂O

The moles of NaOH that reacts (Molar mass: 40g/mol) are:

0.090g * (1mol / 40g) = 0.00225 moles NaOH.

That means after the reaction, 0.00225 moles of HClO are consumed and 0.00225 moles of NaClO are produced.

And after the reaction, moles are:

Final moles:

HClO: 0.0175 mol - 0.00225 mol = 0.01525 moles

NaClO: 0.0150 mol + 0.00225 mol = 0.01725 moles

Replaing in H-H equation:

pH = 7.46 + log [0.01725moles] / [0.01525moles]

Answer:

0 °C

Explanation:

Answer:

0 C

Explanation:

Answer:

bright red light on edge

In an electromagnetic spectrum, bright red light would produce  photoelectric effect on a strip of metal .

The electromagnetic spectrum consists of electromagnetic radiation consists of waves made up of electromagnetic field which are capable of propogating through space and carry the radiant electromagnetic energy.

The radiation are composed of electromagnetic waves which are synchronized oscillations of electric and magnetic fields . They are created due to change which is periodic in electric as well as magnetic fields.

In vacuum ,all the electromagnetic waves travel at the same speed that is with the speed of air.The position of an electromagnetic wave in an electromagnetic spectrum is characterized by it's frequency or wavelength.They are emitted by electrically charged particles which undergo acceleration and subsequently interact with other charged particles.

Learn more about electromagnetic spectrum,here:

https://brainly.com/question/23727978

#SPJ2