two cars leave at the same time and travel in opposite directions. one travels 44mi/hr and the other travels 55mi/hr. in how many hours will they be 297 miles apart.

Answer:

37057.9V

Explanation:

Electric potential is defined as the work done in moving a unit positive charge from infinity to a point.

Electric potential (E) = Potential Difference (V)/distance between plates(d)

Given; electric field of 5.71 x 10^5 N/C; distance between plates =6.49cm = 0.0649m

Since E = V/d

V = Ed

V = 5.71×10^5×0.0649

V = 37057.9Volts

The potential difference (in V) between the plates is 37057.9V

Answer:

V = 3.71×10⁴ V

Explanation:

Potential difference: This can be defined as the work done in moving a positive charge from infinity to any point in an electric field.

The S.I unit of potential difference is Volt (V).

The expression for potential difference is

V = E×d.............................. Equation 1

Where V = potential difference between the plates, E = Electric field , d = distance of separation between the plates

Given: E = 5.71×10⁵ N/C, d = 6.49 cm = 0.0649 m.

Substitute into equation 1

V = 5.71×10⁵×0.0649

V = 3.71×10⁴ V

Answer:

a. [tex]6.032\times10^{-6}C/m^2[/tex]

b.[tex]6.816\times10^5N/C[/tex]

Explanation:

#Apply  surface charge density, electric field, and Gauss law to solve:

a. Surface charge density is defined as charge per area denoted as [tex]\sigma[/tex]

[tex]\sigma=\frac{Q}{4\pi r_{out}^2}[/tex], and the strength of the electric field outside the sphere [tex]E=\frac{\sigma _{new}}{\epsilon _o}[/tex]

Using Gauss Law, total electric flux out of a closed surface is equal to the total charge enclosed divided by the permittivity.

[tex]\phi=\frac{Q_{enclosed}}{\epsilon_o}\\\\\sigma=\frac{Q}{4\pi r_{out}^2}\\\\\sigma=\frac{0.370\times 10^{-6}}{4\pi \times (0.295m)^2}\\\\=3.383\times10^{-7}C/m^2[/tex]  #surface charge outside sphere.

[tex]\sigma_{new}=\sigma_{s}-\sigma\\\\\sigma_{new}=6.37\times10^{-6}C/m^2-3.383\times10^{-7}C/m^2\\\\\sigma_{new}=6.032\times10^{-6}C/m^2[/tex]

Hence, the new charge density on the outside of the sphere is [tex]6.032\times10^{-6}C/m^2[/tex]

b. The strength of the electric field just outside the sphere is calculated as:

From a above, we know the new surface charge to be [tex]6.032\times10^{-6}C/m^2[/tex],

[tex]E=\frac{\sigma _{new}}{\epsilon _o}\\\\=\frac{6.032\times10^{-6}C/m^2}{\epsilon _o}\\\\\epsilon _o=8.85\times10^{-12}C^2/N.m^2\\\\E=\frac{6.032\times10^{-6}C/m^2}{8.85\times10^{-12}C^2/N.m^2}\\\\E=6.816\times10^5N/C[/tex]

Hence, the strength of the electric field just outside the sphere is [tex]6.816\times10^5N/C[/tex]

Answer: A = square root (2/L)

Explanation: find the attached file for explanation

Final answer:

The wave function of a particle in a one-dimensional box needs to be normalized. The normalization condition requires that the value of A for the wave function Ψ(x) = Asin(πx/L) is found to be A = √(2/L) after solving the normalization integral.

Explanation:

The wave function Ψ(x) of a particle in a one-dimensional box of width L must be normalized so that the total probability of finding the particle within the box is 1. This normalization condition implies that the integral of the square of the absolute value of the wave function over the interval from 0 to L should equal 1.

The normalization integral for the given wave function Ψ(x) = Asin(πx/L) is:

∫ |Asin(πx/L)|² dx = A² ∫ sin²(πx/L) dx = 1

When you solve the integral from 0 to L, the result is:

A² * L/2 = 1

Therefore, solving for A, we get:

A = √(2/L)

So the value of A in terms of L is √(2/L).

Answer:

he failed thousands of times

Explanation:

There is no known number for his failings. Edison may have failed in many of his experiments and in his schooling, but he had something better working in his favor. He had great determination and persistence.

He failed thousands of times in an attempt to develop an electric light, the great Edison simply viewed each unsuccessful experiment as the elimination of a solution that wouldn’t work, thereby moving him that much closer to a successful solution.

Answer:

THE ANSWER IS: Water flows more rapidly out of the ground-floor faucet.

Explanation:

Water flows more rapidly out of the ground-floor faucet.

Learn more about municipal water supply here:

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Answer:

[tex]W=K_f-K_i[/tex]

Explanation:

The work done on a particle by external forces is defined as:

[tex]W=\int\limits^{r_f}_{r_i} {F\cdot dr} \,[/tex]

According to Newton's second law [tex]F=ma[/tex]. Thus:

[tex]W=\int\limits^{r_f}_{r_i}{ma\cdot dr} \,\\[/tex]

Acceleration is defined as the derivative of the speed with respect to time:

[tex]W=m\int\limits^{r_f}_{r_i}{\frac{dv}{dt}\cdot dr} \,\\\\W=m\int\limits^{r_f}_{r_i}{dv \cdot \frac{dr}{dt}} \,[/tex]

Speed is defined as the derivative of the position with respect to time:

[tex]W=m\int\limits^{v_f}_{v_i} v \cdot dv \,[/tex]

Kinetic energy is defined as [tex]K=\frac{mv^2}{2}[/tex]:

[tex]W=m\frac{v_f^2}{2}-m\frac{v_i^2}{2}\\W=K_f-K_i[/tex]

Answer:The coefficient of static friction between the turntable and the coin is 0.1

Explanation:

The coefficient of static friction is the friction force between two objects when neither of the objects is moving. ... A value of 1 means the frictional force is equal to the normal force. It is a misconception that the coefficient of friction is limited to values between zero and one.

Answer: into the atmosphere

Explanation:

As this energy is released into the atmosphere, bubbles of warm air is formed which is released and it is replaced by cooler air. This process is responsible for many of the weather patterns in our atmosphere, and is known as....

convection

While convection is a form of heat transfer from one place to the other involving the movement of fluids. So in the case narrated above the fluid which serves as a medium is Air.

Answer: FALSE

Explanation: Could you help me with a question?

Answer:

Option B

Explanation:

The orbital periods of Phobos and Deimos can be calculated using the Newton's form of Kepler's third law:  

[tex] T^{2} = \frac {4 \pi^{2}}{G*M_{m}} \cdot a^{3} [/tex]  

where T: is the period, G: is the gravitational constant = 6.67x10⁻¹¹ m³kg⁻¹s⁻², Mm: is the mass of Mars = 6.42x10²³ kg, [tex]a_{P}[/tex]: is the average radius of orbit for the satellite Phobos = 9376 km, and [tex]a_{D}[/tex]: is the average radius of orbit for the satellite Deimos = 23463 km.  

The orbital period of Phobos is:

[tex] T = \sqrt {\frac {4 \pi^{2}}{6.67 \cdot 10^{-11} m^{3} kg^{-1} s^{-2}*6.42 \cdot 10^{23} kg} \cdot (9.376 \cdot 10^{6} m)^{3}} = 2.75 \cdot 10^{4} s = 7 hours 36 min [/tex]        

The orbital period of Deimos is:

[tex] T = \sqrt {\frac {4 \pi^{2}}{6.67 \cdot 10^{-11} m^{3} kg^{-1} s^{-2}*6.42 \cdot 10^{23} kg} \cdot (2.35 \cdot 10^{7} m)^{3}} = 1.09 \cdot 10^{5} s = 1 day 6 hours [/tex]      

Therefore, the approximate orbital periods of Phobos and Deimos are 7 hours 35 minutes and 1 day 6 hours, respectively, so the correct answer is option B.    

I hope it helps you!      

Answer:

128 N

Explanation:

Using

F = Gm'm/r²....................... Equation 1

Where F = Force, G = Universal constant, m = mass of the human, m' = mass of the moon, r = radius of the moon

Given: m = 75 kg, m' = 7.4×10²² kg, r = 1.7×10⁶ m

Constant: G = 6.67×10⁻¹¹ Nm²/kg²

Substitute into equation 1

F =  (6.67×10⁻¹¹ )(75)(7.4×10²²)/(1.7×10⁶)²

F = (3.7×10¹⁴)/(2.89×10¹²)

F = 1.28×10²

F = 128 N

Explanation:

Below is an attachment containing the solution.

Answer:

It's true.

Explanation:

It's true. When we connect two resistors in parallel the current is divided between the two in such a way that the sum of the currents on each resistor should be equal to the current on that branch. By finding the equivalent resistance we can use Ohm's law to determine the voltage drop across the resistors. This voltage drop is the same for both, since they're connected in parallel.

This statement is true. In a series-parallel circuit, the voltage across the branches in the parallel portion can be found by multiplying the sum of the branch currents by the equivalent resistance of the resistors in the parallel portion.

In a series-parallel circuit, the voltage across the branches in the parallel portion can be found by multiplying the sum of the branch currents by the equivalent resistance of the resistors in the parallel portion. This statement is true.

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Answer:

The frequency 400 hz is not possible .

Explanation:

Given that,

Frequency = 200 hz

Length = l

Suppose, The given frequencies are,

600 Hz, 1000 Hz, 1400 Hz, 1800 Hz and 400 hz.

The possible resonance frequencies are

We need to calculate the fundamental frequency

Using formula of fundamental frequency for pipe

[tex]F=\dfrac{nv}{4L}[/tex]

Where, n = odd number

Put the value of frequency

[tex]200= \dfrac{nv}{4L}[/tex]

We need to calculate the first over tone

Using formula of fundamental frequency

n = 3,

[tex]F=\dfrac{nv}{4L}[/tex]

Put the value into the formula

[tex]F_{2}=3\times\dfrac{v}{4l}[/tex]

[tex]F_{2}=3\times200[/tex]

[tex]F_{2}=600\ Hz[/tex]

We need to calculate the second over tone

Using formula of fundamental frequency

n = 5,

[tex]F=\dfrac{nv}{4L}[/tex]

Put the value into the formula

[tex]F_{3}=5\times200[/tex]

[tex]F_{3}=1000\ Hz[/tex]

We need to calculate the third over tone

Using formula of fundamental frequency

n = 7,

[tex]F=\dfrac{nv}{4L}[/tex]

Put the value into the formula

[tex]F_{4}=7\times200[/tex]

[tex]F_{4}=1400\ Hz[/tex]

We need to calculate the fourth over tone

Using formula of fundamental frequency

n = 9,

[tex]F=\dfrac{nv}{4L}[/tex]

Put the value into the formula

[tex]F_{5}=9\times200[/tex]

[tex]F_{5}=1800\ Hz[/tex]

Hence, The frequency 400 hz is not possible .

Final answer:

In a pipe that is closed at one end and open at the other, only odd multiples of the fundamental frequency will resonate. Frequencies that are even multiples of the fundamental 200 Hz, such as 400 Hz, 600 Hz, 800 Hz, will not resonate.

Explanation:

The lowest-pitch tone to resonate in a pipe of length l that is closed at one end and open at the other end is 200 Hz. This pipe supports harmonic frequencies following the sequence fn = n(v/4L), where n = 1, 3, 5..., v is the speed of sound, and L is the length of the pipe. Therefore, frequencies that will not resonate in the same pipe are those that are even multiples of the fundamental frequency, such as 400 Hz, 600 Hz, 800 Hz, and so on.

Answer:

b) 8.

Explanation:

Below is an attachment containing the solution.

Explanation:

    F = k×[tex]\frac{q1q2}{r2}[/tex]

where, K is coulombs constant, which is equal to -                                  9 x10^9 [tex]Nm^2/C^2.[/tex]

Answer:

Alfred Wegener

Explanation:

Alfred Wegener was a German scientist who first discovered the idea of continental drift.

The continental drift hypothesis says that the large continents drift from one location to another over the broad ocean water bodies with respect to the fixed poles. This was the first step in understanding the interior of the earth and how the tectonic activities take place on earth.

He contributed many pieces of evidence in order to support this hypothesis, but it was initially not accepted as he was not able to explain the main mechanism for the continental motion.

Answer:

[tex]\frac{D_{jet}}{D_{prop}}=2.865[/tex]

Explanation:

Given data

Speed of jet Vjet=1190 km/h

Speed of prop driven Vprop=595 km/h

Height of jet 7.5 km

Height of prop driven transport 3.8 km

Density of Air at height 10 km p7.8=0.53 kg/m³

Density of air at height 3.8 km p3.8=0.74 kg/m³

The drag force is given by:

[tex]D=\frac{1}{2}CpAv^2\\[/tex]

The ratio between the drag force on the jet to the drag force  on prop-driven transport is then given by:

[tex]\frac{D_{jet}}{D_{prop}}=\frac{(1/2)Cp_{7.5}Av_{jet}^2}{1/2)Cp_{3.8}Av_{prop}^2} \\\frac{D_{jet}}{D_{prop}}=\frac{p_{7.5}v_{jet}^2}{p_{3.8}v_{prop}}\\\frac{D_{jet}}{D_{prop}}=\frac{(0.53)(1190)^2}{(0.74)(595)^2}\\ \frac{D_{jet}}{D_{prop}}=2.865[/tex]

Final answer:

To double the velocity of the wooden box, you need to double the force applied to it. Use the equation Force = coefficient of kinetic friction x normal force to calculate the force required to push the crate at a constant speed. Then, double this force to find the force required to double the velocity.

Explanation:

To double the velocity of the crate to 2.0 m/s, you need to double the force applied to the crate. The force required to push the crate at a constant speed can be calculated using the equation:

Force = coefficient of kinetic friction x normal force

The normal force is equal to the weight of the crate, which is given by:

Normal force = mass x gravity

With the given values of the mass of the crate (45 kg), the coefficient of kinetic friction (0.25), and the acceleration due to gravity (9.8 m/s²), you can calculate the force required to push the crate at a constant speed. Then, you can double this force to find the force required to double the velocity.

Answer:

0.27J

Explanation:

[tex]C_eq= C_1 + C_2\\= 2+4\\= 6UF\\U = (1/2) CV^2\\= (1/2)(6 - 6)(300 * 300)\\= 0.27J[/tex]

The physical model of the sun's interior has been confirmed by observations of neutrino and seismic vibrations.

Explanation:

Sun's interior is composed of very high temperature and solar flares. So it is very difficult to understand the interior of the sun. But by using the vibrations of neutrino and seismic waves emitted by the solar waves, the physical model can be assumed.

As the interior of the sun performs continuous chain of hydrogen cycle. So the continuous emission of energy from the chain reaction releases neutrino. So these vibrations in neutrino and seismic vibrations, the physical model can be assumed easily.

The statement " Close spacing represents greater current densities" is true about the spacing of the streamlines in a wire (option F)

Why is this correct?

In a scenario where a conductor is wider on the left and narrower on the right, the electric field lines and current density are depicted by streamlines. With current flowing from the wider end to the narrower end, the total charge and current remain constant. However, the current density fluctuates, being higher at the narrower end.

Hence, when observing streamlines, closer spacing within the wire signifies a higher current density, specifically in the narrower sections compared to the wider ones.

Complete question:

Which is true about the spacing of the streamlines in a wire?

A. Wide spacing represents faster random-motion velocities.

B. Wide spacing represents greater electric field vectors.

C. Wide spacing represents greater current densities.

D. Close spacing represents faster random-motion velocities.

E. Close spacing represents greater electric field vectors.

F. Close spacing represents greater current densities.

The given question is incomplete as the options are missing. The options related to this question are as follows-

(A) clear dry weather

(B) hot dry weather

(C) cloudy wet weather

(D) cold dry weather

Answer:

Option (C)

Explanation:

The surface temperature often increases because of increased absorption of solar radiation, the air present at the surface gets heated up more readily, as a result of which the air becomes less dense, and eventually rises up. This gives rise to the creation of a low air pressure system. It often forms clouds comprising of increase relative humidity, and generates wind and thereby causes precipitation. It also causes heavy storms when the atmospheric conditions are too intense.

Thus, the type of weather associated with this is wet and cloudy weather.

Hence, the correct answer is option (C).

Answer:

D

Explanation:

Cloudy wet weather

Answer:

Power coming from solar radiations is 6.94 * 10^14 times higher that the power consumption of all humans.

Explanation:

Intensity of sunlight = I = 1380 w/m^2

Area of earth  = A = 4*pi*r^2 = 4*pi*(6.37*10^6)^2 = 5.09*10^14 m^2

he intensity is defined as the total power spread over the area of earth (Area of Sphere with radius equal to distance between earth and sun) and given by the following formula:

                        Intenity of sunlight = Power/Area of earth

                                                 I = P/A

                                                 P = IA

                                                 P = (1380)(5.09*10^14)

                                                 P =  7.036*10^17 W

if we take ratio:

                                                 7.036*10^17/1013 = 6.94 * 10^14

Hence, power coming from solar radiations is 6.94 * 10^14 times higher that the power consumption of all humans.

Answer:

a. The final velocity of the block of mass 2 kg is 3 m/s or 3.86 m/s. The final velocity of the block of mass 1.5 kg is 4 m/s or 2.86 m/s b. The kinetic energy change is 0 J or -12.235 J. Since the collision is elastic, we choose ΔK = 0

Explanation:

From principle of conservation of momentum,

momentum before impact = momentum after impact

Let m₁ = 2 kg, m₂ = 1.5 kg and v₁ = 3 m/s, v₂ = 4 m/s represent the masses and initial velocities of the first and second blocks of mass respectively. Let v₃ and v₄ be the final velocities of the blocks. So,

m₁v₁ + m₂v₂ = m₁v₃ + m₂v₄

(2 × 3 + 1.5 × 4) = 2v₃ + 1.5v₄

6 + 6 = 2v₃ + 1.5v₄

12 = 2v₃ + 1.5v₄

2v₃ + 1.5v₄ = 12 (1)

Since the collision is elastic, kinetic energy is conserved. So

1/2m₁v₁² + 1/2m₂v₂² = 1/2m₁v₃² + 1/2m₂v₄²

1/2 × 2 × 3² +  1/2 × 1.5 × 4² = 1/2 ×2v₃² + 1/2 × 1.5v₄²

9 + 12 = v₃² + 0.75v₄²

21 = v₃² + 0.75v₄²

v₃² + 0.75v₄² = 21  (2)

From (1) v₃ = 6 - 0.75v₄ (3) . Substituting v₃ into (2)

(6 - 0.75v₄)² + 0.75v₄² = 21

36 - 9v₄ + 0.5625v₄² + 0.75v₄² = 21

36 - 9v₄ + 1.3125v₄² - 21 = 0

1.3125v₄² - 9v₄ + 15 = 0

Using the quadratic formula,

v₄ = [-(-9) ± √[(-9)² - 4 × 1.3125 × 15]]/(2 × 1.3125)

= [9 ± √[81 - 78.75]]/2.625

= [9 ± √2.25]/2.625

= [9 ± 1.5]/2.625

= [9 + 1.5]/2.625 or [9 - 1.5]/2.625

= 10.5/2.625 or 7.5/2.625

= 4 m/s or 2.86 m/s

Substititing v₄ into (3)

v₃ = 6 - 0.75v₄ = 6 - 0.75 × 4 = 6 - 3 = 3 m/s

or

v₃ = 6 - 0.75v₄ = 6 - 0.75 × 2.86 = 6 - 2.145 = 3.855 m/s ≅ 3.86 m/s

b. The kinetic energy change ΔK = K₂ - K₁

K₁ = initial kinetic energy of the two blocks =  1/2m₁v₁² + 1/2m₂v₂²

= 1/2 × 2 × 3² +  1/2 × 1.5 × 4² = 9 + 12 = 21 J

K₂ = final kinetic energy of the two blocks = 1/2m₁v₃² + 1/2m₂v₄². Using v = 3 m/s and v = 4 m/s

= 1/2 × 2 × 3² +  1/2 × 1.5 × 4² = 9 + 12 = 21 J.

ΔK = K₂ - K₁ = 21 - 21 = 0

Using v = 3.86 m/s and v = 2.86 m/s

K₂ = 1/2 × 2 × 3.86² +  1/2 × 1.5 × 2.86² = 14.8996 - 6.1347 = 8.7649 J ≅ 8.765 J

ΔK = K₂ - K₁ = 8.765  - 21 = -12.235 J

Since the collision is elastic, we choose ΔK = 0

Answer:

μ= F÷N

μ= 270/460= 0.587

Explanation:

The friction force always acts in the opposite direction of the intended or actual motion.

Answer:

Rutherford bombarded aluminum foil with beam of light known as alpha particles. The mass of this alpha particle is equivalent to helium atom.

Explanation:

Rutherford bombarded aluminum foil with beam of light known as alpha particles. The mass of this alpha particle is equivalent to helium atom.

When this alpha particles were made to strike the aluminum foil, some passed through the foil, some were reflected and speed others changed.

The ones reflected encountered heavier particle known as the nucleus, preventing them from passing through it. The whole observations indicated that atom is not is uniformly charged sphere as proposed by J.J Thomson.

Rutherford proposed new model known as the Planetary model of atom, which described atom as containing a nucleus which is revolved by electron, just like planets revolve round the sun. And this nucleus contains opposite charge to electron which is proton, to balance the motion.

Answer:

The lowest possible frequency of sound is 971.4 Hz.

Explanation:

Given that,

Distance between  loudspeakers = 2.00 m

Height = 5.50 m

Sound speed = 340 m/s

We need to calculate the distance

Using Pythagorean theorem

[tex]AC^2=AB^2+BC^2[/tex]

[tex]AC^2=2.00^2+5.50^2[/tex]

[tex]AC=\sqrt{(2.00^2+5.50^2)}[/tex]

[tex]AC=5.85\ m[/tex]

We need to calculate the path difference

Using formula of path difference

[tex]\Delta x=AC-BC[/tex]

Put the value into the formula

[tex]\Delta x=5.85-5.50[/tex]

[tex]\Delta x=0.35\ m[/tex]

We need to calculate the lowest possible frequency of sound

Using formula of frequency

[tex]f=\dfrac{nv}{\Delta x}[/tex]

Put the value into the formula

[tex]f=\dfrac{1\times340}{0.35}[/tex]

[tex]f=971.4\ Hz[/tex]

Hence, The lowest possible frequency of sound is 971.4 Hz.

Answer:

They have a frequency of 2 hertz

Explanation:

Frequency is the number of occurrences of a repeating event per unit of time and Wavelength is the distance from one crest to another, or from one trough to another.

In the question, it is stated that the leaf does two full up and down bobs, this means that it completes 2 full cycles in one second. Therefore, its frequency is 2/s

where, s⁻¹ is hertz

so, They have a frequency of 2 hertz

Answer: Two marbles separated by 300 kilometers

Explanation: Hope i helped have a great day and please mark brainliest i would appreciate it!