bond formed when atoms share one or more pairs of electrons, but atoms do not always share electrons equally

The motion of an object through the air does not affect by its mass. The rate of fall of objects does not depend upon the mass.

Free fall is a motion of a body in which gravity is the only force acting upon it. An object moving upwards might not be considered to be falling. But if the object is under the effect of the force of gravity, it is said to be in free fall.

Free fall is a type of motion in which the force acting upon an object is only gravity. Objects are not encountering a significant force of air resistance as they are only falling under the sole influence of gravity. All objects under such conditions will fall with the same rate of acceleration, regardless of their masses.

As an object falls through the air, have gone through some degree of air resistance. Air resistance is the collisions of the object's leading surface with molecules present in the air. The two most common factors that have a direct effect on the amount of air resistance are the cross-sectional area of the object and the speed of the object.

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Answer:

  f = 96.56 Hz

Explanation:

A soda bottle can be simulated by a system of a tube with one end open and the other closed. In this case at the closed end we have a node and at the open end a maximum, so the wavelength is

        λ = 4L / n

where n = 1, 3, 5, ...

for our case the speed of sound is

       v = λ f

we substitute

       f / v = 4L / n

calculate

      290 / (340 4) = L / n

       0.213 = L / n

In the exercise the value of n is not indicated, but we can assume that it is the fundamental answer, therefore n = 1

        L = 0.213 m

now we can calculate the frequency of the following resonance n = 3

           f = 4L v / n

           f = 4 0.213 340/3

           f = 96.56 Hz

Answer:

in all three cases the total moment is zero

cases A and B the kinetic energy is conserved.  

In case C the velocity decreases so the kinetic energy decreases

Explanation:

This is a momentum conservation exercise

          p = mv

In order for the moment to be preserved, we must define a system formed by the two cars, so that the forces during coke have been internal.

Before crash

car 1      p₀₁ = m v₀

car 2     p₀₂ = - mv₀

pose us several situations, we analyze each one

A) After the crash the cars stop

      [tex]p_{f}[/tex] = 0

p₀₁      m v₀

p₀₂    -m v₀

p_{f}  0

B) After the collision, each vehicle reverses its direction

p₀₁            m v₀

p₀₂           -m v₀

p_{f1}       -m v₀

p_{f2}       m v₀

C) In this case some of the kinetic energy is lost which is converted into internal energy, for example, deformation, heat, friction.

Consequently the speed of the cars is

               v < v₀

p₀₁          m v₀

p₀₂         - m v₀

p_{f1}     -m v

p_{f2}    m v

D) in cases A and B the momentum is maintained, but in case C the total momentum is maintained, even when the speed of the cars decreases, this is pf_total = 0

In all cases the total impulse is zero

           p₀ = p₀₁ + p₀₂ = m v₀ - mv₀

           p₀_total = 0

in all three cases the total moment is zero

E) The total kinetic energy is the sum of the kinetic energy of each car

          K_total = K₀₁ + K₀₂

          K_total = ½ m v₀² + ½ m (-v₀)²

          K_total = m v₀²

we see that because it is squared, the sign of the velocity does not matter, therefore in cases A and B the kinetic energy is conserved.

In case C the velocity decreases so the kinetic energy decreases

         Kf_total < K₀_total

the missing energy is transformed into internal energy during sackcloth.

In the attachment we can see a vector diagram of the momentum in each case

Answer:

temperature

Explanation:

when you put a water on the stove the water will start to boil there for temperature

Answer:

a) 3.56 x 10^22 N

b) 3.56 x 10^22 N

Explanation:

Mass of the sun M = 2 x 10^30 kg

mass of the Earth m = 6 x 10^24 kg

Distance between the sun and the Earth R = 1.5 x 10^11 m

From Newton's law,

F = [tex]\frac{GMm}{R^2}[/tex]

where F is the gravitational force between the sun and the Earth

G is the gravitational constant = 6.67 × 10^-11 m^3 kg^-1 s^-2

m is the mass of the Earth

M is the mass of the sun

R is the distance between the sun and the Earth.

Substituting values, we have

F = [tex]\frac{6.67*10^{-11}*2*10^{30}*6*10^{24}}{(1.5*10^{11})^2}[/tex] = 3.56 x 10^22 N

A) The force exerted by the sun on the Earth is equal to the force exerted by the Earth on the Sun also, and the force is equal to 3.56 x 10^22 N

b) The force exerted by the Earth on the Sun = 3.56 x 10^22 N

Part A:

The magnitude of the gravitational force exerted by the Sun on the Earth is :

From Newton's law,

F = GmM/F

Substituting values,

F =  = 3.56 x 10^22 N

The force exerted by the sun on the Earth is equal to the force exerted by the Earth on the Sun also, and the force is equal to 3.56 x 10^22 N.

Part B:

The force exerted by the Earth on the Sun = 3.56 x 10^22 N.

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Explanation:

It is given that,

Resistance, R = 20 ohms

Voltage of the battery, V = 10 V

We can find current flowing through the circuit using Ohm's law as follows :

V = IR

[tex]I=\dfrac{V}{R}\\\\I=\dfrac{10}{20}\\\\I=0.5\ A[/tex]

It can be seen from the Ohm's law, that the current is directly proportional to the voltage. It means that if the battery is replaced by a battery that provides a larger voltage, the current through the circuit will be more than 0.5 A i.e. it increases.

The current via the circuit will be more than 0.5 A i.e. it increases.

Since

Resistance, R = 20 ohms

The voltage of the battery, V = 10 V

Now we applied the above law i.e.

V = IR

I = V/R

I = 10/20

I = 0.5 A

Based on the above calculations, we can say that the current should be directly proportional to the voltage. That means in the case when the battery should be replaced by the battery that gives the larger voltage so the current should be more than 0.5 A due to this it increased.

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Answer:yes

Explanation:The constan acceleration means that it wont stop moving but if you kick it a different direction then it will change direction

Explanation:

It's pressure become three times larger because according to Boyles Law the pressure of fixed mass of gas is inversely proportional to it's volume provided that temp remains constant. That means a reduction in volume, will result in an increase in pressure and vice versa.

Answer:

A. matter was compressed into a single point and then exploded outward to form the universe

Explanation:

The big bang is how astronomers explain the way the universe began. It is the idea that the universe began as just a single point, then expanded and stretched to grow as large as it is right now (and it could still be stretching).

A. matter was compressed into a single point and then exploded outward to form the universe.

this option describes the big bang theory

The Big Bang hypothesis states that all of the current and past matter in the Universe came into existence at the same time, roughly 13.8 billion years ago. At this time, all matter was compacted into a very small ball with infinite density and intense heat called Singularity.

The Big Bang was the moment 13.8 billion years ago when the universe began as a tiny, dense, fireball that exploded. Most astronomers use the Big Bang theory to explain how the universe began. But what caused this explosion in the first place is still a mystery.

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Answer:

v = 5.26 10² m / s

Explanation:

We can solve this exercise using the concepts of conservation of mechanical energy, because there is no friction

starting point. Red blood cells too far away

          Em₀ = K = ½ m v²

final point. Red blood cells touching r = 8.20 10⁻⁶ m

          Em_f = U = k q₁ q₂ / r₁₂

          Em₀ = Em_f

          ½ m v² = k q₁ q₂ / r₁₂

          v = √ (2 k q₁ q₂ / m r₁₂)

we calculate

          v =√ (2 9 10⁹ 2 10⁻¹² 2.9 10⁻¹² / (4.60 10⁻¹⁴  8.20 10⁻⁶))

          v = √ (0.276775 10⁶)

          v = 0.526 10³ m / s

          v = 5.26 10² m / s

Answer:

v = 0.58 m/s

Explanation:

The velocity of an object is given as the ratio of the total distance traveled by the object to the time interval taken for traveling. Hence, we use the following formula to find the average velocity of the cyclist:

v = s/t

where,

v = average velocity = ?

s = distance traveled = final position - initial position =1200 m - 150 m =1050 m

t = time interval = (30 min)(60 s/1 min) = 1800 s

Therefore,

v = 1050 m/1800 s

v = 0.58 m/s

Answer:

The final temperature is [tex]\left(T_1^{C_1}+T_2^{C_2}\right)^{\frac {1}{C_1+C_2}}[/tex]

and the maximum amount of workdone is [tex]C_1T_1 + C_2T_2-(C_1+C_2)\left(T_1^{C_1}+T_2^{C_2}\right)^{\frac {1}{C_1+C_2}}[/tex].

Explanation:

Assume that [tex]R_1[/tex] is the reservior having temperature [tex]T_1 K[/tex] and heat capicity [tex]C_1 \frac JK[/tex] and [tex]R_2[/tex] is the reservior having temperature [tex]T_2[/tex] and heat capicity [tex]C_2 \frac JK[/tex].

The work will be extracted till that both the reservior reach the thermal equilibrium. Let the final temperature of both the reservior is [tex]T_f[/tex].

Let total [tex]Q_1[/tex] heat is extracted by the heat engine from the reservior [tex]R_1[/tex] and its temperature decreases from [tex]T_1[/tex] to [tex]T_f[/tex] and [tex]Q_2[/tex] heat is rejected by the heat engine to the reservior [tex]R_2[/tex] and its temperature decreases from [tex]T_2[/tex] to [tex]T_f[/tex].

So, The maximum amount of work done,

[tex]w= Q_1 - Q_2\; \cdots (i)[/tex]

Now, as the heat engine is reversible, so change is entropy for the universe is 0, which means sum of change in entropy for the ststem as well as surrounding is 0.

As shown in figure, the system is the reversible engine, so, change is entropy for the system is 0. Hence, change in entropy for the the surrounding is 0.

As temperature of [tex]R_1[/tex] is changing fron [tex]T_1[/tex] to [tex]T_f[/tex], so, change in entropy of surrounding due to transfer of [tex]Q_1[/tex] is [tex]C_1 \ln \frac {T_f}{T_1}[/tex].

Similarly,  change in entropy of surrounding due to transfer of [tex]Q_2[/tex] is [tex]C_2 \ln \frac {T_f}{T_2}[/tex].

As the net change in entropy of the surrounding is 0.

[tex]\Rightarrow C_1 \ln \frac {T_f}{T_1}+C_2 \ln \frac {T_f}{T_2}=0[/tex]

[tex]\Rightarrow \ln \left( \frac {T_f}{T_1} \right)^{C_1}+ \ln \left( \frac {T_f}{T_2}\right)^{C_2}=0[/tex]

[tex]\Rightarrow \ln \left(\frac {T_f}{T_1}\right)^{C_1}=- \ln \left( \frac {T_f}{T_2}\right)^{C_2}[/tex]

[tex]\Rightarrow \ln \left(\frac {T_f}{T_1}\right)^{C_1}= \ln \left( \frac {T_2}{T_f}\right)^{C_2}[/tex]

[tex]\Rightarrow \left( \frac {T_f}{T_1}\right)^{C_1}=\left( \frac {T_2}{T_f}\right)^{C_2}[/tex][taking anti-log both the sides]

[tex]\Rightarrow T_f^{(C_1 +C_2)}=T_1^{C_1}+T_2^{C_2}[/tex]

[tex]\Rightarrow T_f=\left(T_1^{C_1}+T_2^{C_2}\right)^{\frac {1}{C_1+C_2}}\; \cdots (ii)[/tex]

This is the required final temperature.

Now, from equarion (i), the maximum amount of work done is

[tex]w= Q_1 - Q_2[/tex]

As [tex]Q=C\Delta T[/tex]

[tex]\Rightarrow w=C_1(T_1-T_f)-C_2(T_f-T_2)[/tex]

[tex]\Rightarrow w=C_1T_1 + C_2T_2-(C_1+C_2)T_f[/tex]

From equation [tex](ii)[/tex],

[tex]w=C_1T_1 + C_2T_2-(C_1+C_2)\left(T_1^{C_1}+T_2^{C_2}\right)^{\frac {1}{C_1+C_2}}[/tex]

This is the required maximum workdone.

Answer:

groups

Explanation:

I got a 100 on my quiz

Answer:

It's groups

Explanation:

2020 quiz

Answer: length of B =4.00

Explanation:

for  the vectors A and B and the angle between them as  x.

Magnitude of the sum of A and B is  given as = √(A²+B²+2ABcosx

where

Magnitude of A  = 3.00

Magnitude of the sum of A and B is  5.00

5.00=√(A²+B²+2ABcos90°

5.00= √3² +b² +0

5²= 3² +b²

25=9+b²

b²= 25-9

b² = 16

b=  √16

b= 4

Answer:

The magnitude of the resultant force is 6201 N

The direction of the resultant force is 72°

Explanation:

Please find the attached file for explanation;

Answer:

a) surface   λ = 5 10⁻⁷ m

   nuecleus λ=  2,890 10⁻⁹ m

there is a mixture of wavelengths giving rise to white light

b) True color sun is White

Explanation:

Wien's law establishes a relationship between the temperature of a star and the maximum wavelength emitted

          λ T = 2,898 10⁻³

if we calculate the wavelength of the Sun

T = 5800K       λ = 5 10⁻⁷ m = 5000 nm

this is the surface temperature

in the part of the  internal Sunspart (Nucleus)  about 10⁶ degrees this is where the nuclear reaction occurs

in this region the photons are very short λ

      λ = 2,890 10⁻³ / 106

      λ=  2,890 10⁻⁹ m

these photons are absorbed and emitted on their way to the surface of the sun many times, therefore there is a mixture of wavelengths giving rise to white light

b) Sunlight when it reaches Earth is absorbed by atmospheric gases, mainly Blue, as it is absorbed by Nitrogen, it lets through mainly red and red

True color sun is White

Answer:

4 s

Explanation:

Given:

Δx = 12 m

v₀ = 6 m/s

v = 0 m/s

Find: t

Δx = ½ (v + v₀) t

12 m = ½ (0 m/s + 6 m/s) t

t = 4 s

Answer:

it can be cross pollinated as well as self pollinated

it has short life style

pea plant has many contrasting character in pair example tall, short.

large number of offspring are produced from hybrid plants

Answer:

What is a Control Group? The control group (sometimes called a comparison group) is used in an experiment as a way to ensure that your experiment actually works. It's a way to make sure that the treatment you are giving is causing the experimental results, and not something outside the experiment

Explanation:

Answer:

Mass of Iron is 24.45 kg

Explanation:

Given that:

Mass of Silver, [tex]m_{S}[/tex] = 8.00 kg

Mass of Gold, [tex]m_{G}[/tex] = 15.0 kg

Initial temperature of Silver and Gold = 333 K

Initial temperature of Iron = 1737 K

Final temperature = 1337 K

Specific heat capacity of Gold-liquid, [tex]c_{G}[/tex] = 0.150 kJ/(kg K)

Specific heat of Silver-liquid, [tex]c_{S}[/tex]  = 0.280 kJ/(kg K)

Known: Specific heat capacity of Iron, [tex]c_{I}[/tex]  = 0.461 kJ/(kg K)

Therefore;

Heat lost by Iron = Heat gained by Silver + Heat gained by Gold

[tex]m_{I}[/tex] x [tex]c_{I}[/tex] x Δθ = ([tex]m_{S}[/tex] x [tex]c_{S}[/tex] + [tex]m_{G}[/tex] x [tex]c_{G}[/tex]) x Δθ

[tex]m_{I}[/tex] x 0.461 x (1737 - 1337) = (8 x 0.280 + 15 x 0.150) x (1337 - 333)

[tex]m_{I}[/tex] x 0.461 x 400 = (2.24 + 2.25) x 1004

[tex]m_{I}[/tex] x 184.4 = 4507.96

[tex]m_{I}[/tex] = [tex]\frac{4507.96}{184.4}[/tex]

[tex]m_{I}[/tex] = 24.4466

[tex]m_{I}[/tex] ≅ 24.45

The mass of Iron is 24.45 kg.

Answer:

Mechanical energy is the energy that is possessed by an object due to its motion or due to its position. Mechanical energy can be either kinetic energy (energy of motion) or potential energy (stored energy of position).

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Explanation:

Answer:

D

Explanation:

5 Km=5000m

so Δv=5000 m/sec

a=Δv/Δt

=5000/10

a=500 m/sec²                 as 500÷1000=0.5 Km

a=0.5 km/sec²

so D is the right answer.

Answer:

its 667m just took the test

Explanation:

Answer:

The value is [tex]V =168.75\ millivolt [/tex]

Explanation:

From the question we are told that

The workdone is [tex]W= 2.70 * 10^{-20 } \ J[/tex]

Generally charge on the positive sodium ion is equivalent to the charge on a proton, the value is [tex]e = 1.60 *10^{-19} \ C[/tex]

Generally the potential difference between the inner and outer surfaces of the cell is mathematically represented as

[tex]V = \frac{W}{e}[/tex]

=>      [tex]V  =  \frac{2.70 * 10^{-20 } }{1.60 *10^{-19} }[/tex]

=>     [tex]V  = 0.16875 \  V[/tex]

converting to millivolt

         [tex]V  = 0.16875 * 1000 [/tex]

    =>   [tex]V  =168.75\ millivolt [/tex]

Answer:

average acceleration = 6 [tex]\frac{m}{s^2}[/tex]

Explanation:

Recall that the average acceleration [tex](a)[/tex]  is defined by the change in velocity from an initial velocity [tex](v_i)[/tex], to a final velocity [tex](v_f)[/tex] over the time (t) it took that change to happen. Then, in mathematical terms this is:

[tex]a=\frac{v_f-v_i}{t}[/tex]

with our information this becomes:

[tex]a=\frac{v_f-v_i}{t} = \frac{100-40}{10}=6\,\frac{m}{s^2}[/tex]

Answer:

the answer is true

Explanation:

Answer:

Acceleration Remains Constant and Velocity decreases.

Explanation:

Answer:

egocentric

Explanation:

Answer:

The value is [tex]P_1 = 314645 \ Pa [/tex]

Explanation:

From the question we are told that

The height is [tex]h_2 = 10 m[/tex]

The height of the burning roof is [tex]k = 9 m[/tex]

The horizontal distance is [tex]d = 7 \ m[/tex]

The height of the truck is [tex]h_1 = 0.5 \ m[/tex]

Generally the time for the water to hit the roof from the hose is mathematically represented as

[tex]t = \sqrt{\frac{2 * (h_2 - k)}{g} }[/tex]

=> [tex]t = \sqrt{\frac{2 * (10 - 9)}{9.8} }[/tex]

=> [tex]t = 0.4518 \ s [/tex]

Generally the velocity of the water is mathematically evaluated as

[tex]v_2 = \frac{d}{t}[/tex]

[tex]v_2 = \frac{ 7}{0.4518}[/tex]

[tex]v_2 = 15.5 \ m/s [/tex]

Generally from Bernoulli's Equation we have that

[tex]P_1 + \frac{1}{2} v_1^2 * \rho + \rho *g *h_1 = P_2 + \frac{1}{2} v_2^2 * \rho + \rho *g *h_2[/tex]

Here [tex]P_1 [\tex] is pressure in the chamber which we are to calculate , [tex]P_2 [\tex] is the atmospheric pressure with value  [tex]P_2 =  101325 \ Pa  [\tex] , [tex]v_1 [\tex] is the velocity of the water before it starts flowing with value [tex]v_1  =  0 m/s [\tex] , [tex]\rho [\tex]  is the density of water with value [tex]\rho =  1000 \ kg/m^3  [\tex]

So

       [tex]P_1  + \frac{1}{2} 0^2 * 1000 + 1000 *9.81 *0.5 = 101325  + \frac{1}{2}* 15.5^2* 1000 + 1000 *9.81 *10[/tex]  

         [tex]P_1  = 314645 \ Pa [/tex]        

Answer:

Answer is D

Explain:

Just did it on Abex

The equation best describes a cost-benefit analysis for installing new, more efficient solar panels on the International Space Station which the team might perform is Improved efficiency - manufacturing expenses - fuel to reach orbit = net benefit.

A panel designed to absorb the sun's rays as a source of energy for generating electricity or heating. Solar technologies convert sunlight into electrical energy either through photovoltaic (PV) panels or through mirrors that concentrate solar radiation. This energy can be used to generate electricity or be stored in batteries or thermal storage.

The advantages of solar power are:

A cost-benefit analysis is the process of comparing the projected or estimated costs and benefits (or opportunities) associated with a project decision to determine whether it makes sense from a business perspective.

The Elements of Cost-Benefit Analysis is

Hence, Improved efficiency - manufacturing expenses - fuel to reach orbit = net benefit best describes a cost-benefit analysis the team might perform.

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