Which element has the fewest valence electrons?
O A. Nitrogen (N)
O B. Silicon (Si)
O C. Chlorine (CI)
O D. Beryllium (Be)

Answer:

3.  When energy is used, it can transform to new types but can never disappear.

Explanation: it can transform into heat, light, ect and will never disapear unlessed turned of.

Answer:

im soo sad brainly wouldnt let me in the account that asked this question now i have to start everything over

Explanation:

Answer:

true

Explanation:

The rings around the planets such as Saturn, Uranus, and Neptune are formed because of the collision of moons, asteroids, or comets that got too close to the planets. Only those travels toward the sun which got enough energy to escape from the planet's gravity.

A ring system can be described as a disc or ring, orbiting an astronomical object, that is made up of solid material such as dust and moonlets, and is a component of satellite systems around giant planets. A ring system around a planet is also called a planetary ring system.

The planetary rings in the Solar System are those around Saturn, but the other three giant planets also have ring systems. The ring systems may also be found around minor planets, moons, and brown dwarfs.

The maximum size of a ring particle can be determined by the specific strength of the material it is composed of, its density, and tidal force at its altitude.

Learn more about planetary rings, here:

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Answer:

a) The time it takes the ball to reach maximum height is approximately 3.06 seconds

b) The distance of the ball from the home plate once it is at the top is approximately 38.78 m

c) No

d) The height of the ball when it is at the top is approximately 45.92 m

e) The time it takes the ball to travel 100 m horizontally is 5 seconds

F) The height of the ball when it is 100 m away from the home plate is 27.5 m

G) The height of the ball above the ground when it 100 m away from the home plate, is 27.5 m

The height of the ball above the wall at 100 m from home plate is 3.5 m

Explanation:

The given parameters for the motion of the ball are;

The upward (vertical) velocity of the ball, [tex]u_y[/tex] = 30 m/s

The across (horizontal) velocity of the ball, uₓ = 20 m/s

The distance from the home plate to the outfield fence = 100 m

The height of the outfield fence = 24 m

a) The time, '[tex]t_{mh}[/tex]', it takes the ball to reach maximum height is by the following kinematic equation of motion;

[tex]v_y[/tex] = [tex]u_y[/tex] - g·t

Where;

[tex]u_y[/tex] = 30 m/s

g = The acceleration due to gravity ≈ 9.8 m/s²

At maximum height, we have;

[tex]v_y[/tex] = 0 m/s, t = [tex]t_{mh}[/tex]

∴ 0 m/s = [tex]u_y[/tex] - g·[tex]t_{mh}[/tex]

[tex]u_y[/tex] = g·[tex]t_{mh}[/tex]

[tex]t_{mh}[/tex] = [tex]u_y[/tex]/g

∴ [tex]t_{mh}[/tex] = [tex]u_y[/tex]/g = (30 m/s)/(9.8 m/s²) = 150/49 s ≈ 3.06 seconds

The time it takes the ball to reach maximum height, [tex]t_{mh}[/tex] ≈ 3.06 seconds

b) The horizontal distance travelled by the ball, when it is at maximum height, [tex]x_{mh}[/tex], is given as follows;

[tex]x_{mh}[/tex] = uₓ × [tex]t_{mh}[/tex] = 20 m/s × 150/49 s

[tex]x_{mh}[/tex] = 20 m/s × 150/49 s = 3000/49 m

[tex]x_{mh}[/tex] = 3000/49 m

The distance of the ball from the home plate, 'd', once it is at the top (maximum height), is given as follows;

d = 100 m - [tex]x_{mh}[/tex]

∴ d = 100 m - 3000/49 m = 1900/49 m ≈ 38.78 m

The distance of the ball from the home plate once it is at the top = d ≈ 38.78 m

c) The ball is yet to reach the fence when it gets to the top

The ball has approximately 38.78 meters to reach the fence

d) The height of the ball, [tex]h_{max}[/tex], when it is at the top is given by the following kinematic equation

[tex]h_{max}[/tex] = [tex]u_y[/tex]²/(2·g)

Where;

[tex]u_y[/tex] = 30 m/s

g = The acceleration due to gravity ≈ 9.8 m/s²

∴ [tex]h_{max}[/tex] = (30 m/s)²/(2×9.8 m/s²) = 2,250/49 m ≈ 45.92 m

The height of the ball when it is at the top, [tex]h_{max}[/tex] ≈ 45.92 m

e) The time, t₁₀₀, it will take the ball to get 100 m from home plate is found from the following relationship;

Velocity, u = Distance, x/(time, t)

∴ Time = Distance/(Velocity)

t = x/v

The given distance is the horizontal distance, therefore, we use the horizontal component of the velocity as follows;

v = Horizontal velocity of the softball = uₓ = 20 m/s

x = The given horizontal distance travelled by the ball = 100 m

t₁₀₀ = The time it takes the ball to travel 100 m horizontally

∴ t₁₀₀ = x/(uₓ) = 100 m/(20 m/s) = 5 s

The time it takes the ball to travel 100 m horizontally, t₁₀₀ = 5 seconds

F) The height of the ball above ground when it is 100 m away from the home plate is given as follows;

When the ball is 100 m from the home plate, the time, t₁₀₀ = 5 seconds

The height of the ball at 100m, [tex]h_{t_{(100 \, m)}}[/tex], is given according to the kinematic equation of motion for vertical height reached by an object as follows;

h = [tex]u_y[/tex]·t - 1/2·g·t²

∴ [tex]h_{t_{(100 \, m)}}[/tex] =  [tex]u_y[/tex]·t₁₀₀ - 1/2·g·t₁₀₀²

Plugging in the known values gives;

[tex]h_{t_{(100 \, m)}}[/tex] =  30 m/s × 5 s  - 1/2 × 9.8 m/s × (5 s)² = 27.5 m

The height of the ball when it is 100 m away from the home plate, [tex]h_{t_{(100 \, m)}}[/tex] = 27.5 m.

G) The height of the ball above the ground when it 100 m away from the home plate, is  [tex]h_{t_{(100 \, m)}}[/tex] = 27.5 m

The height of the ball above the wall at 100 m from the home plate = The height of the ball when it is 100 m away from the home plate - The height of the wall at 100 m away from the home plate

∴ The height of the ball above the wall at 100 m from home plate = 27.5 m - 24 m = 3.5 m.

As we know that,

[tex]\boxed{ \sf \: {v}^{2} - {u}^{2} = 2as }[/tex]

According to the question,

0² - u² = 2(20)(121)

0 - u² = 4840

-u² = 4840

-u = √4840

u = -69.5 m/s

The initial velocity of the stone is -69.5 m/S.

Answer:

yes.

Explanation:

becausehjjkvfdssaajkkbcsssddhkkgddd

Answer:

B. When the average speed of particles is the same throughout the liquid

Answer:

D: 50 s

Explanation:

We are told that the sidewalk has a velocity of 1.3 m/s north.

Also, we are told that the man walks south on the sidewalk at a speed of 0.9 m/s.

Thus, it means they are moving in opposite directions. The net velocity of the man will be;

v_net = 1.3 - 0.9

v_net = 0.4 m/s

We want to find how long does it take him to travel 20 m relative to a stationary observer,thus;

We we know that;

Time = distance/speed

Time = 20/0.4

Time = 50 s

Answer:

1 represents the electron flow

2 represents the load.

3 represents the voltage source.

4 represents the conductive path.

Explanation:

Ohm's law states that at constant temperature, the current flowing in an electrical circuit is directly proportional to the voltage applied across the two points and inversely proportional to the resistance in the electrical circuit.

Mathematically, Ohm's law is given by the formula;

[tex] V = IR[/tex]

Where;

V represents voltage measured in voltage.

I represents current measured in amperes.

R represents resistance measured in ohms.

In an electrical circuit, there are various symbols used to represent different parameters or quantities as shown in the image attached above and these includes;

a. 1 represents the electron flow. This is a representation of the direction of flow of current.

b. 2 represents the load. This is the electrical appliance such as an electronic bulb that is being powered by the electrical circuit.

c. 3 represents the voltage source. This is typically a battery cell that provides the required amount of voltage for the circuit.

d. 4 represents the conductive path. This is the conductor that carries current from one point to another in the circuit such as copper.

Answer:

Simple answer: Yes

Explanation:

Even if you touch an item with a stick you re still doing work to it, most of the time something sitting on a table not being disturbed is having work done to it. Everything has the force of gravity working on it to essentially keep the items from floating away so workis being done to it.

Work done can be something so small (e.g) a pencil sitting on a table) or as big as an earthquake or kicking a ball through a window and smashing the glass.

Answer:

The first one is true.

Explanation:

Here it is

Answer:

0.002 m or 2 mm

Explanation:

Given that:

Force, F = 50N

Area = 1 * 10^-5

Length, L = 10m

Shear modulus, = 2.5 * 10^10

Using the relation ;

D = (50 ÷ 1*10^-5) ÷ (2.5 * 10^10 ÷ 10)

D = 5000000 ÷ 2.5 * 10^9

D = 5 * 10^6 ÷ 2.5 * 10^9

D = (5/2.5) * 10^(6-9)

D = 2 * 10^-3

D = 0.002 m

1m = 1000 mm

0.002m = (1000 * 0.002) = 2 mm

Answer:

It stays and remains at rest

Explanation:

When no forces acts on an object or all the forces on it are balanced, the body stays at rest or remains stationary.

This is based on the Newton's law of inertia which states that "an object will remain in a state of uniform motion or at rest unless an external force acts on it".

If the forces acting on a body is balanced, the object will perpetually remain and keep at rest

Answer:

true

Explanation:

I think true because I think

Answer:

the current flowing in the circuit is 0.1 A.

Explanation:

Given;

potential difference, V = 12 V

resistance of the circuit, R = 120 ohms

The current flowing in the circuit is calculated as;

V = IR

I = V/R

where;

I is the current flowing in the circuit

I = 12 / 120

I = 0.1 A

Therefore, the current flowing in the circuit is 0.1 A.

Answer:

3 of them are not accelerating . only one of them is and that one is the rocket taking off because its speed increases

Answer:

Second Option

Explanation:

The answer is the second option or "a women walking at a constant speed of 2.5 m/s along a straight path." Remember that constant means always staying the same so if a women is walking at a constant speed of 2.5 miles per hour on a straight path, she will remain at her current speed at 2.5 mils per hour which isn't acceleration.

Hope this helps.

Answer:

they become ionized and change to ions

Answer:

The technology was also widely employed in fighter aircraft during the 1960s. It is also used in air traffic control systems to pick out aircraft from clutter. Pulse-Doppler RADAR is also the basis of synthetic aperture RADAR that is commonly used in RADAR astronomy, remote sensing, and mapping.

Answer:

Nope.

Explanation:

No. The Moon rotates on its own axis at the same rate that it orbits around Earth. That means we always see the same side of the Moon from our position on Earth. The side we don't see gets just as much light, so a more accurate name for that part of the Moon is the "far side."

No, we can't see the similar quantity of the illuminated side of the Moon from the planet (Earth).

Thus the above answer is correct.

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Answer:

False

Explanation:

Think of the electric potential in terms of potential energy. If you imagine a place with high elevation (A) and another one at sea level (B), a ball will roll from high potential to low potential (A-->B).

Everything in our universe wants to reach a lower state of energy if no external force is acted upon it. Every object tends to slow down (friction), a radioactive element dissipates energy (an unstable element releases energy to get to a stable state), water in the clouds comes down to the ground (rain experiencing difference in potential energy).

Electric potential is exactly the same, you just can't see it! It flows from higher voltage (which is a synonym for electric potential) to lower voltage.

Answer:

Solubility

Explanation:

Material becomes soluble in solvent and disappears.

The physical property of the material is Serena most likely observing is solubility.

Explanation:

Solubility is defined as the property of a substance to get dissolve in another substance. A small amount of substance is termed as solute and a substance in a larger amount is called a solvent.

Intermolecular interaction of solute particles with solvent particles results in the dissolving of a solute in the solvent.

Conductivity is the property of the substance to conduct heat, electric current, or sound through them.

magnetism is a physical phenomenon that arises due to the motion of electric current through a conductor resulting in the production of a magnetic field.

Density is a measure of the mass of a substance present in the unit volume of the substance.

So, when Serena observed the disappearance of a material into a beaker filled with liquid she is observing the property of solubility of that material.

Learn more about solubility here:

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Answer:

Yes

Explanation:

Explanation:

Given parameters:

Force  = 500N

Acceleration  =

Unknown:

Weight can be used to this problem = ?

Solution:

Weight is the vertical force on a body;

       Weight  = mass x acceleration

So from this we can find the mass and then convert to the second wealth.

Answer:

In the explanation

Explanation:

After erosion and eruptions which is a primary occuration for sediments, this will create heat and tough pressure leading the sediment to be extremely stable and Hard.

Answer:

heyyyyyyy

Explanation:

Answer:

s=62.5m

Explanation:

Use the equation v²=u²+2as, where v is the final velocity, u is the initial velocity, a is the acceleration and s is the distance.

0²=25²+2(-5)s

10s=625

s=62.5m

Answer:

 a = 1600 m / s²

Explanation:

For this exercise we use the kinematics relations,

         v² = v₀² + 2 a x

where v₀ is the initial velocity of the bullet, which as part of rest is zero, for the distance (x) we can assume that the gases accelerate along the entire trajectory of the cannon x = 2m

         a = [tex]\frac{v^2}{2x}[/tex]

let's calculate

         a = [tex]\frac{80^2}{2 \ 2}[/tex]

         a = 1600 m / s²