A general term for an attractive force that holds two atoms together is known as an

True or False? You should change the subscripts to balance chemical equations.

Kitty [74]

False subscripts cannot be changed to balance chemical equations

3 0

3 years ago

2.5 \ 4620 to the significant number

vlabodo [156]

0.0005411
0.00054 is the real answer
you use the one with the least significant figures as the reference of how many to use.

101 three sig figs
001 one sig figs as well as 0.001
9.000 four sig figs

4 0

3 years ago

The diagram shows monochromatic light passing through

Maru [420]

Destructive interference in which waves cancel each other out is depicted in region X,Y and Z.

<u>Explanation:</u>

Interface is the particle property of light waves. When incident light beam is made to pass through holes, the waves will combine either constructively or destructively. Constructive interference means the waves having same phase will get added so they will increase in amplitude. While destructive interference means the waves combining have different phases like crests and troughs. So they undergo decrease or complete vanishing of amplitude.

When waves combine in constructive interference, they form bright white light and when they combine in destructive interference, they form dark black light. So the regions X, Y and Z are shown as dark black colors in the diagram, so these regions represent destructive interference in which waves cancel each other out.

8 0

3 years ago

How do you do this

yaroslaw [1]

Answer:

The volume of basketball is 7216.5 cm³.

Explanation:

Given data:

Radius of ball = 12 cm

Volume of ball = ?

Solution:

We will apply the volume formula of sphere.

V = 4/3 ×π×r³

we know that,

π = 22/7

r = 12 cm

Now we will put the values in formula.

V = 4/3 × 3.14 × (12 cm)³

V = 4/3 × 3.14 ×1728 cm³

V = 7216.5 cm³

Thus, the volume of basketball is 7216.5 cm³.

7 0

3 years ago

explain why the first ionization energy of krypton is greater than the first ionization energy of bromine

4vir4ik [10]

Answer:

The atomic radius of krypton is similar to that of bromine. However, the effective nuclear charge of krypton is greater than that of bromine.

Explanation:

Ionizing an atom require moving an electron from the electron cloud of the atom to a point infinitely far away from the atom. The first ionization energy of this atom is the energy change in this process.

The electron and the nucleus are oppositely-charged. There is an electrostatic force between the two. Removing the electron requires overcoming this attraction. The size of the energy input depends on the electrostatic potential energy of the electron (the gravitational potential energy is much smaller than the electrostatic potential energy.) The separation between the electron and the nucleus is much larger than their radii. Both objects can be considered as point charges. Coulomb's Law gives the electrostatic potential energy of the two point charge that are close to each other.

$\displaystyle \text{Electrostatic Potential Energy} = -\frac{k\cdot (q_1\cdot q_2)}{r}$ ,

where

$k$ is Coulomb's constant,
$q_1$ and $q_2$ are the two charges, and
$r$ is the separation between the two charges.

Krypton and bromine are right next to each other in the same period. Their atomic radii will be similar to each other. The separation $r$ between the outermost electron and the nucleus will also be similar for the two elements.

The first charge $q_1$ can be the electron. However, data show that for elements after helium, the second charge $q_2$ is smaller than the sum of charges on all protons in the nucleus. It turns out that the inner shell electrons (all of which are also negative) repel electrons in the outermost valence shell. The effective nuclear charge $Z_\text{eff}$ of a neutral atom is <em>approximately</em> the same as the number of protons minus the number of non-valence electrons. That number will be slightly larger for krypton than for bromine. As a result, the electrostatic potential energy on a 4p (the outermost orbital for both Kr and Br) electron of krypton will be more negative than that on a 4p electron in bromine. Removing that electron will take more energy in Kr than in Br. The first ionization energy of Kr is hence greater than that of Br.

8 0

3 years ago

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