What property determines an atoms ability to attract electrons shared in a chemical bond

Which carboxylic acid can be combined with an alcohol to form the ester shown below?

Anna11 [10]

Answer:

CH₃CH₂CH₂COOH.

Explanation:

To know which option is correct, let us hydrolysed the given ester. This is illustrated in the attached photo.

Hydrolysis of ester involves breaking the ester bond by a water molecule to produce the corresponding alcohol and carboxylic acid.

From the reaction given in the attached photo, we can see that the carboxylic acid needed to produce the desired ester is butanoic acid, CH₃CH₂CH₂COOH.

7 0

4 years ago

Click Reset and drop object A back into the water. About what percentage of object A is under the water? How is this percentage

Free_Kalibri [48]

Archimedes' principle allows finding the percentage of material submerged in the fluid and the general relationship that for a body to float is: Body density must be less than fluid density

Archimedes' principle says that the force of a fluid on a body is equal to the weight of the liquid dislodged

B = ρ_{fluid} g V_{fluid}

Where B is the thrust, rho and V the density and volume of the fluid, respectively, and g is the acceleration of gravity (g = 9.80 m / s²).

In the attachment we can see a diagram of a body in water, let's apply the equilibrium condition

Σ F = 0

B - W = 0

W = m g

Density is a very useful concept that relates the mass and volume of a body

ρ = m / V

m = ρ V

we substitute

B = ρ_{body} g V_ {body}

In the attachment we see that part of the body is below the fluid, so the volume of fluid dislodged is

V_ {fluid} = l w h_ {under}

Where V is the volume of fluid dislodged, l and w are the length and width of the body, and h_{under} is the distance of the submerged body.

We substitute

ρ_ {fluid} g l w h_ {under} = ρ_ {body} g l w h_ {total}

$\frac{\rho_{body}}{\rho_{fluid} } = \frac{h_{under}}{h_{total}}$ (1)

Let's analyze this expression that gives the ratio of the densities to the ratio of the height of the submerged body.

In the table we give some densities and the height of a body

Material density total height % under

ρ(kg/m³) (m)

water (fluid) 1.00 10³ 1.00

Ice 0.917 10³ 0.10 91.7%

Oak 0.710 10³ 0.10 71%

Pine 0.373 10³ 0.10 37.3%

Aluminum 2.70 10³ 0.10 100%

Polyethylene 0.94 10³ 0.94 94%

Let's calculate the submerged height, where we will use water as a fluid, let's use equation 1

h_ {under} = $\frac{\rho_{body}}{\rho_{fluid}} \ h_{total}$

Fluid: Water

Material: Ice

h under = $\frac{0.917}{1.00} \ 1.00$

h under = 0.917 m

To calculate the percentage of the sunken body we use

% under = h_ {under} / h_ {total}

% under = $\frac{0.917}{1.00}$ 100

% under = 91.7%

Material: Pine

h under = $\frac{0.373}{0.10} \ 0.10$

h under = 0.0373 m

% under = $\frac{0.0373}{0.10}$ <em> </em> 100

% under = 37.3%

Material: Aluminum

In this case all the matrix is submerged

%under = 100%

The calculated values are also shown in the last column of the table.

It is observed that for a material to float in another, its density must be less than the density of the fluid, in the case of a ship, the volume of the ship is very large, therefore its apparent density is less than that of water.

In conclusion, using Archimedes' principle we can find the percentage of bound material and the general generation that for a body to float is:

material floats in another its density must be less than the density of the fluid

Learn more about Archimedes' Principle here:

brainly.com/question/13106989

8 0

3 years ago

Which elements do not have a set number of valence electrons?

laila [671]

Answer:

the answer would be B. hope this helps!

Explanation:

8 0

3 years ago

Amateur radio operators in the United States can transmit on several bands. One of those bands consists of radio waves with a wa

zloy xaker [14]

Answer:

1.5×10⁷ Hz

Explanation:

From the question given above, the following data were obtained:

Wavelength of radio wave (λ) = 20 m

Frequency (f) =?

Frequency and wavelength of a wave are related by the following equation:

v = λf

Where:

'v' is the velocity of electromagnetic wave.

'λ' is the wavelength

'f' is the frequency.

With the above formula, we can obtain the frequency of the radio wave as illustrated below:

Wavelength of radio wave (λ) = 20 m

Velocity (v) = 3×10⁸ m/s

Frequency (f) =?

v = λf

3×10⁸ = 20 × f

Divide both side by 20

f = 3×10⁸ / 20

f = 1.5×10⁷ Hz

Thus the frequency of the radio wave is 1.5×10⁷ Hz

5 0

3 years ago

If 15 drops of ethanol from a medical dropper weight 0.60g, how many drops does it takes from a dropper to dispense 1.0ml of eth

Hoochie [10]

Answer : The number of drops it takes from a dropper to dispense 1.0 ml of ethanol is, 20 drops

Solution : Given,

Density of ethanol = 0.80 g/ml

Mass of ethanol = 0.60 g

First we have to calculate the volume of ethanol.

Formula used : $Density=\frac{Mass}{Volume}$

$0.80g/ml=\frac{0.60g}{Volume}$

$Volume=\frac{0.60g}{0.80g/ml}=0.75ml$

The volume of ethanol is, 0.75 ml

Now we have to calculate the number of drops it takes from a dropper to dispense 1 ml of ethanol.

As, the number of drops in 0.75 ml of ethanol = 15

So, the number of drops in 1.0 ml of ethanol = $\frac{15}{0.75}\times 1.0=20$

Therefore, the number of drops it takes from a dropper to dispense 1.0 ml of ethanol is, 20 drops

8 0

3 years ago