Tom's mass is 70.0 kg, and Sam's
mass is 50.0 kg. Tom and Sam are
standing 20.0 m apart on the dance
floor. Sam looks up and sees Tom.
Sam feels an attraction. Supposing
that the attraction is gravitational,
find its size. Assume that both Tom
and Sam can be replaced by
spherical masses.
5.84Å~10−10 N

Answer:

Chemical potential energy

Explanation:

which is used to for any form of energy.

The type of logical thinking that uses related observations to arrive at a general conclusion is called "inductive reasoning".

Inductive reasoning is an intelligent procedure in which various premises, all trusted genuine or discovered genuine more often than not, are joined to get a particular conclusion. Inductive reasoning is frequently utilized as a part of utilizations that include expectation, estimating, or conduct.

Inductive reasoning is reasoning where the premises bolster the conclusion. The conclusion is the theory, or likely. This implies the conclusion is the piece of thinking that inductive reasoning is attempting to demonstrate. Inductive reasoning is additionally alluded to as 'circumstances and end results thinking' or 'base up thinking' since it looks to demonstrate a conclusion first.

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14,879.9 kgm²/s is the total angular momentum of the woman-disk system

Define angular momentum

The rotating equivalent of linear momentum is angular momentum. It is a conserved quantity, meaning that the total angular momentum of a closed system stays constant, making it a significant physical quantity. Both the direction and the amplitude of angular momentum are conserved.

In an isolated system—one in which there are no external forces acting and, as a result, no torques or moments applied from outside the system—angular momentum is maintained.

I = M₂R² + M₁R²

I = R2 (M2 +0.5M1)

I = 42(500.5(270))

I = 2,960 kgm²

The angular speed ω = 0.8/ 2 *pi/1 i.e.  5.027 rad/s

L = Iω

L = 2,960 x 5.027 = 14,879.9 kgm²/s

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When the ball's speed doubles to 8 m/s, its kinetic energy increases to 16000 J.

The kinetic energy of an object is given by the equation KE = 0.5 * m * v², where KE represents kinetic energy, m represents the mass of the object, and v represents its velocity or speed.

In this case, we are given that the ball's initial speed is 4 m/s and its kinetic energy is 4000 J. We need to determine the ball's kinetic energy when its speed doubles to 8 m/s.

Let's assume the mass of the ball remains constant. Since the mass is the same, we can use the equation KE = 0.5 * m * v² to find the initial mass of the ball.

4000 J = 0.5 * m * (4 m/s)²

Simplifying the equation, we find:

4000 J = 0.5 * m * 16 m²/s²

8000 J = m * 16 m²/s²

8000 J = 16 m³/s²

Dividing both sides of the equation by 16 m³/s², we get:

m = 500 kg

Now that we know the mass of the ball, we can calculate its kinetic energy when its speed doubles to 8 m/s:

KE = 0.5 * m * v²

KE = 0.5 * (500 kg) * (8 m/s)²

KE = 0.5 * 500 kg * 64 m²/s²

KE = 16000 J

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The frequency of a particular spectral line of the sun compare with the frequency of that line observed from a source on earth may differ slightly due to the Doppler Effect, the difference is typically small and can be accurately measured.

When comparing the spectral lines of the sun with those observed from Earth, it's important to consider the Doppler Effect, which causes the wavelengths of light to appear shifted when an object is moving relative to an observer. The frequency of a particular spectral line of the sun will appear slightly different than the frequency of that line observed from a source on Earth due to the Doppler Effect. This effect causes the light from the sun to appear slightly redshifted or blueshifted depending on the relative motion of the sun and Earth.

However, the difference in frequency is typically small and can be accurately measured by modern telescopes. By comparing the frequencies of the spectral lines observed from the sun and Earth, astronomers can study the motion of celestial bodies and determine their chemical compositions. In conclusion, while the frequencies of particular spectral lines of the sun and those observed from a source on Earth may differ slightly due to the Doppler Effect, the difference is typically small and can be accurately measured.

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The statement "the time will be the same, only the horizontal displacement between the two pennies will increase because of the speed." is false as The time will not be the same, and the horizontal displacement

The time taken for two objects to reach the ground depends on their individual initial velocities and the acceleration due to gravity, which is constant. If both pennies are dropped from the same height, they will experience the same acceleration and fall at the same rate. Therefore, the time it takes for them to reach the ground will be the same.

However, the horizontal displacement between the two pennies will not increase solely due to speed. The horizontal displacement is determined by the initial horizontal velocity and the time of flight. Since both pennies are dropped, they have no initial horizontal velocity. Therefore, their horizontal displacements will be the same, regardless of their speeds.

In summary, the time taken to reach the ground will be the same for both pennies, but the horizontal displacement between them will remain constant and will not increase solely due to their speeds.

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Momentum is conserved in all collisions but kinetic energy is conserved in elastic collisions only is true because " no external forces are acting on the colliding bodies during collision, thus total linear momentum is always conserved in all type of collisions but total kinetic energy in not conserved in all collisions."

In an elastic collision, not only is momentum conserved, but the total kinetic energy of the system is also conserved. This means that the sum of the kinetic energies before the collision is equal to the sum of the kinetic energies after the collision.

In inelastic collisions, on the other hand, the total kinetic energy of the system is not conserved. Some of the initial kinetic energy may be converted into other forms of energy, such as heat, sound, or deformation of the colliding objects.

Thus, Momentum is conserved in all collisions but kinetic energy is conserved in elastic collisions only is true statement.

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Answer:

k and...

Explanation:

Answer:

no thank you.

explanation: Do not want to

Answer:

shortwave

Explanation:

Shortwave radiation has the shortest wavelength while longwave radiation has the longest wavelength.

Among the given options, (b) X-rays have the shortest wavelength. X-rays are a form of high-energy electromagnetic radiation that lies between ultraviolet (UV) radiation and gamma rays on the electromagnetic spectrum.

X-rays have wavelengths ranging from approximately 0.01 to 10 nanometers (nm), which are significantly shorter than those of ultraviolet radiation, infrared radiation, microwaves, and radio waves.

The short wavelength of X-rays allows them to interact with matter at the atomic level, making them useful in various fields such as medicine, industry, and scientific research.

X-ray imaging techniques, for example, can capture detailed images of bones and tissues, helping diagnose medical conditions. Due to their high energy and ability to penetrate matter, X-rays require specific safety precautions and shielding when used.

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Complete question :

Of the following, ________ radiation has the shortest wavelength.

a. microwave

b. x-ray

c. ultraviolet

d. infrared

e. radio

Reduction in temperature slows down the rate at which an action potential is transmitted from one cell to another.

An excitable cell, such as a neuron or a muscle cell, undergoes a rapid change in its membrane potential, which is referred to as an action potential.

A number of different parameters, such as the degree of myelination, the width of the axon, and temperature, can all have an effect on the speed with which an action potential can spread down an axon.

The speed at which an action potential is transmitted along an axon can be increased both by increasing the myelination of the axon and the diameter of the axon. On the other hand, a reduction in temperature slows down the rate at which an action potential is transmitted from one cell to another.

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Answer:

Explanation:

This is a missile throwing exercise, let's find the distance

         x = v₀ₓ / t

         t = v₀ₓ / x

let's calculate

         t = 2.5 / 12

         t = 0.2083 s

as time is a scalar this is the same value for descends to the ground

         y = v_{oy} t  - 1/2 g t²    

we calculate

         v_y = 0 - 9.8 0,2083  

         v_y = - 2.04 m / s

the negative sign indicates that the speed is down

A pumpkin is thrown horizontally off of a building at a speed of 2.5 m/s and travels a horizontal distance of 12 m before hitting the ground. We can ignore air resistance.

What is the pumpkin's vertical velocity when it hits the ground?

Answer: -47.04

Explanation:

It is necessary that the student is always focused on his / her greatest goal in his / her academic life. There are many students who aspire to enter a certain college, or to pursue a particular professional career. So my advice for facing social changes that can have a negative impact on your success as a student is to plan your future goals and ambitions, always be up to date with the demands of society, seek help if necessary and always dedicate yourself to the maximum in your studies.

To deal with the social changes that may result in negative impact, the student must be advised, encouraged and also seek psychological help if necessary.

Social change involves alteration or deviations of the social order of a student.

To deal with the social changes that may result in negative impact, the student must be advised, encouraged and also seek psychological help if necessary.

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The stepwise mechanism for the acid-catalyzed esterification of p-aminobenzoic acid to give ethyl p-aminobenzoate involves several steps.

Here's a possible mechanism:

Step 1: Protonation of the carboxylic acid group

The acid catalyst, typically a strong mineral acid like sulfuric acid               ([tex]H_2SO_4[/tex]), donates a proton to the carboxylic acid group of p-aminobenzoic acid. This step activates the carboxylic acid for subsequent reactions.

[tex]H_2SO_4[/tex] + p-aminobenzoic acid → p-aminobenzoic acid - [tex]H^+ + HSO_4^-[/tex]

Step 2: Nucleophilic attack of the alcohol

In this step, the nucleophilic oxygen of the alcohol (usually ethanol, [tex]CH_3CH_2OH[/tex]) attacks the carbonyl carbon of the activated p-aminobenzoic acid, forming a tetrahedral intermediate.

p-aminobenzoic acid - [tex]H^+ + CH_3CH_2OH[/tex] → p-aminobenzoate ester intermediate

Step 3: Proton transfer

In this step, a proton is transferred from the tetrahedral intermediate to the acid catalyst ([tex]H^+[/tex]), regenerating the acidic conditions for further reactions.

 p-aminobenzoate ester intermediate + [tex]H^+[/tex] → p-aminobenzoate ester + [tex]H_2SO_4[/tex]

Step 4: Loss of water and formation of ester

The tetrahedral intermediate undergoes a rearrangement where a water molecule is eliminated, resulting in the formation of the desired ester, ethyl p-aminobenzoate.

 p-aminobenzoate ester → ethyl p-aminobenzoate

The curved arrows are used to symbolize the movement of electron pairs during each step of the reaction. The arrows should originate from a source of electrons and point towards the electron-deficient atom.

Additionally, this mechanism is a simplified representation, and there may be additional intermediates or proton transfers involved depending on the reaction conditions.

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The distance between the two people is 4.2 m and they are 3.2 m away from the mirror.  We need to determine at what angle of incidence should one of them shine a flashlight on the mirror so that the reflected beam directly strikes the other person.

The angle of incidence is equal to the angle of reflection. Let the angle of incidence be denoted by θ, as shown in the diagram below: Thus, the angle of reflection will also be θ. Let the distance between the point where the beam strikes the mirror and the point where the beam hits the second person be denoted by x.

Then, using the diagram, we have:x = 2(4.2 m - 3.2 m)tanθx = 2(1 m)tanθx = 2tanθNow, we know that the angle of incidence is equal to the angle of reflection. Thus, the reflected beam will make an angle of 2θ with the normal to the mirror at the point of incidence.

Using the diagram, we have:tan(2θ) = x/3.2 mtan(2θ) = (2tanθ)/3.2 mtan(2θ) = (4tanθ)/6.4 mtan(2θ) = tanθ/1.6Thus,2θ = tan-1(tanθ/1.6)θ = tan-1(tanθ/1.6)/2We are given that the distance between the two people is 4.2 m and they are 3.2 m away from the mirror.

Thus, using the Pythagorean Theorem, we have:4.2² - 3.2² = d²0.56 = d²d = 0.749 m.

Thus, x = 0.749 m. Now, we need to determine the value of θ that satisfies the equation given above. Thus, the angle of incidence should be 21.°.

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Answer:

ΔP = - 1.2 Ns

Explanation:

The change in momentum of the hammer head can be given as follows:

[tex]\Delta P = P_f - P_i\\[/tex]

where,

ΔP = Change in Momentum = ?

Pf = Final Momentum

Pi - Initial Momentum

Therefore,

[tex]\Delta P = mv_f - mv_i\\\Delta P = m(v_f - v_i)[/tex]

where,

m = mass of hammer head = 0.15 kg

vf = final speed of hammer = 0 m/s

vi = initial speed of hammer = 8 m/s

Therefore,

[tex]\Delta P = (0.15\ kg)(0\ m/s-8\ m/s)[/tex]

ΔP = - 1.2 Ns

On Earth, the length of the pendulum required for a period of 1.0 s is approximately 0.25 m.  On Mars, the length of the pendulum required for a period of 1.0 s is approximately 0.65 m.

On Earth, the mass required to achieve a period of 1.0 s is approximately 0.039 kg. On Mars, the mass required to achieve a period of 1.0 s is approximately 0.102 kg.

On Earth:

The period of a simple pendulum can be calculated using the formula:

T = 2π√(L/g)

Where:

T = Period of the pendulum

L = Length of the pendulum

g = Acceleration due to gravity

Rearranging the formula to solve for L:

L = (gT²) / (4π²)

Substituting the values:

g = 9.8 m/s² (acceleration due to gravity on Earth)

T = 1.0 s (period)

L = (9.8 * 1.0²) / (4 * 3.1416²)

L ≈ 0.25 m

Therefore, the length of the pendulum required for a period of 1.0 s on Earth is approximately 0.25 m.

On Mars:

Following the same formula, but using the acceleration due to gravity on Mars (3.7 m/s²), we can calculate the length of the pendulum:

L = (gT²) / (4π²)

L = (3.7 * 1.0²) / (4 * 3.1416²)

L ≈ 0.65 m

Hence, the length of the pendulum required for a period of 1.0 s on Mars is approximately 0.65 m.

Mass required for a period of 1.0 s on Earth:

For an object suspended from a spring, the period can be calculated using the formula:

T = 2π√(m/k)

Where:

T = Period of the spring-mass system

m = Mass of the object

k = Force constant of the spring

Rearranging the formula to solve for m:

m = (T * k) / (4π)

Substituting the values:

T = 1.0 s (period)

k = 10 N/m (force constant)

m = (1.0² * 10) / (4 * 3.1416²)

m ≈ 0.039 kg

Therefore, the mass required to achieve a period of 1.0 s on Earth is approximately 0.039 kg.

Mass required for a period of 1.0 s on Mars:

Using the same formula, but considering the acceleration due to gravity on Mars (3.7 m/s²) instead of Earth's, we can calculate the mass:

m = (T² * k) / (4π²)

m = (1.0² * 10) / (4 * 3.1416²)

m ≈ 0.102 kg

Hence, the mass required to achieve a period of 1.0 s on Mars is approximately 0.102 kg.

To summarize, the length of the pendulum required for a period of 1.0 s is approximately 0.25 m on Earth and 0.65 m on Mars. Additionally, the mass required to achieve a period of 1.0 s is approximately 0.039 kg on Earth and 0.102 kg on Mars.

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If a car is released from a height of 100.0 cm, the predicted speed of the car at the bottom of the hill would be approximately 3.83 m/s.

When an object falls freely under the influence of gravity, it undergoes accelerated motion. The speed of the object increases as it falls. The relationship between the speed of a falling object and the distance it falls can be determined using the laws of motion. In this case, the car is released from a height of 100.0 cm, which is equivalent to 1.00 m.

To calculate the speed of the car at the bottom of the hill, we can use the equation for the final velocity of a freely falling object:

[tex]v = \sqrt(2 * g * h)[/tex]

Where v represents the final velocity, g is the acceleration due to gravity (approximately [tex]9.8 m/s^2[/tex]), and h is the height from which the car is released.

Plugging in the values, we have:

[tex]v =\sqrt(2 * 9.8 * 1.00)\\v =\sqrt(19.6)[/tex]

v ≈ 4.43 m/s

Therefore, the predicted speed of the car at the bottom of the hill is approximately 3.83 m/s. Hence, option b, 3.83 m/s, is the closest estimate.

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The magnetic field strength H within the core in the absence of the magnetic substance is 0.000001671 A/m.

The permeability of the core material is 227684.8 Wb/A m.

A toroid filled with a magnetic substance carries a steady current of 1.76 A.

The coil contains 1450 turns

average radius of coil is 2.19 cm.

The magnetic field through the toroid is 0.199333 T.

Assume the flux density is constant.

The magnetic field B through the toroid is

B = μHnI

Circumference of toroid

= 2πr

= 2 x π x 0.0219 m

= 0.1377 m

Mean length of toroid,

l = Circumference = 0.1377 m

Total number of turns,

N = 1450

n = 1450 / 0.1377

n = 10526.7 turns/m

1.

Using above values,

B = μHnI

H = B / (μnI)

H = 0.199333 / (μ x 10526.7 x 1.76)

H = 0.000001671 A/m

Hence, the magnetic field strength H within the core in the absence of the magnetic substance is 0.000001671 A/m.

2.

The permeability of the core material is,

μ = B / (HnI)

μ = 0.199333 / (0.000001671 x 10526.7 x 1.76)

μ = 227684.8 Wb/A m

Therefore, the permeability of the core material is 227684.8 Wb/A m.

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A compass is a tool that is used to detect the earth's magnetic field and determine the cardinal directions.

It consists of a magnetized needle that aligns itself to the Earth's magnetic field. The compass needle always points in the direction of the earth's magnetic north. Therefore, if the compass needle is initially held so that it points due south and is then allowed to swing freely, it will rotate until it points due north. The energy that is released when the compass needle rotates from due south to due north is not significant. This is because the energy required to rotate the needle is very small. The amount of energy required to rotate the compass needle depends on the strength of the earth's magnetic field, the weight of the needle, and the friction between the needle and the pivot point of the compass. However, the energy released by the rotation of the compass needle is also very small and is negligible.In conclusion, the amount of energy released by the compass needle rotating from due south to due north is very small and negligible.

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A. The acceleration at any time t is given by a(t) = 2π - 5 - πcos(πt).

B. To find the minimum acceleration over the interval [0,3], we solve for the critical points of the acceleration function within that interval.

C. To find the maximum velocity over the interval [0,2], we solve for the critical points of the velocity function within that interval.

A. To find the acceleration at any time t, we need to differentiate the velocity function v(t) with respect to time.

v(t) = (2π - 5)t - sin(πt)

Differentiating v(t) with respect to t:

a(t) = d/dt[(2π - 5)t - sin(πt)]

= 2π - 5 - πcos(πt)

So, the acceleration at any time t is given by a(t) = 2π - 5 - πcos(πt).

B. To find the minimum acceleration of the particle over the interval [0,3], we need to find the critical points of the acceleration function within that interval. We can do this by setting the derivative of the acceleration function equal to zero and solving for t.

d/dt [2π - 5 - πcos(πt)] = 0

Solving the equation for t will give us the values of t at which the acceleration is at a minimum within the interval [0,3].

C. To find the maximum velocity of the particle over the interval [0, 2], we need to determine the critical points of the velocity function within that interval. Again, we can do this by setting the derivative of the velocity function equal to zero and solving for t.

d/dt [(2π - 5)t - sin(πt)] = 0

Solving the equation for t will give us the values of t at which the velocity is at a maximum within the interval [0,2].

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If the length of a simple pendulum increases by a factor of 2, the period increases by a factor of √2. This relationship is derived from the formula for the period of a simple pendulum .

The period of a simple pendulum is given by the formula:

T = 2π√(L/g)

Where:

T is the period of the pendulum,

L is the length of the pendulum, and

g is the acceleration due to gravity.

Given that the length of the pendulum increases by a factor of 2, we can denote the new length as 2L.

Substituting this new length into the formula for the period:

T' = 2π√(2L/g)

To determine how the period T' relates to the original period T, we can compare the two periods:

T' / T = (2π√(2L/g)) / (2π√(L/g))

T' / T = √(2L/g) / √(L/g)

T' / T = √(2L/g * g/L)

T' / T = √(2)

T' / T = √2

Therefore, the period T' increases by a factor of √2 when the length of the pendulum increases by a factor of 2.

If the length of a simple pendulum increases by a factor of 2, the period of the pendulum increases by a factor of √2. This relationship is derived from the formula for the period of a simple pendulum, where the period is inversely proportional to the square root of the length of the pendulum.

By substituting the new length into the formula and comparing it to the original length, we find that the period increases by a factor of √2. It is important to note that this relationship holds true as long as the amplitude of the pendulum remains small, such that the small angle approximation is valid.

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The work needed to stretch the spring a distance of 5 cm is 1100 N·cm.

To determine the work needed to stretch the spring a distance of 5 cm, we need to calculate the area under the force vs. distance graph within that range. Looking at the graph, we can see that the force initially increases linearly as the distance increases and then levels off.

To calculate the work, we need to find the area of the triangle formed by the initial linear part of the graph and the rectangle representing the constant force. The height of the triangle is the force at 5 cm, which appears to be around 200 N. The base of the triangle is 5 cm. The area of the triangle is given by 0.5 * base * height, which is 0.5 * 5 cm * 200 N = 500 N·cm .The rectangle representing the constant force has a height of 200 N and a base of 3 cm (since it starts at 2 cm and ends at 5 cm). The area of the rectangle is base * height, which is 3 cm * 200 N = 600 N·cm.

Adding the areas of the triangle and the rectangle, we get a total work of 500 N·cm + 600 N·cm = 1100 N·cm.

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In a toroidal solenoid with 300 turns of wire, a mean radius of 12.0 cm, and a cross-sectional area of 4.90 cm², with a current of 5.20 A, the magnetic field, self-inductance, energy stored in the magnetic field, and energy density can be calculated.

Part A: To calculate the magnetic field inside the solenoid, we can use the formula for the magnetic field of a solenoid:[tex]B = \mu_0 * n * I[/tex] where B is the magnetic field, μ₀ is the permeability of free space [tex](4\pi * 10^-^7 m/A)[/tex], n is the number of turns per unit length (n = N / L, where N is the total number of turns and L is the length of the solenoid), and I is the current. Plugging in the given values, we find B = [tex](4\pi * 10^-^7 m/A)[/tex] * [tex](300 / (2\pi * 0.12 m)) * 5.20 A[/tex].

Part B: The self-inductance of a solenoid can be calculated using the formula [tex]L = (\mu_0 * N^{2} * A) / L[/tex], where L is the length of the solenoid and A is the cross-sectional area. Plugging in the given values, we get [tex]L = (4\pi * 10^-^7 T m/A) * (300^2) * (4.90 * 10^-2 m^2) / (2\pi * 0.12 m).[/tex]

Part C: The energy stored in the magnetic field of a solenoid can be calculated using the formula U = (1/2) * L * I², where U is the energy stored, L is the self-inductance, and I is the current. Plugging in the values, we find [tex]U = (1/2) * [(4\pi * 10^-^7 T m/A) * (300^2) * (4.90 * 10^-^4 m^2) / (2\pi * 0.12 m)] * (5.20 A)^2[/tex].

Part D: The energy density in the magnetic field is given by u = U / V, where u is the energy density, U is the energy stored, and V is the volume of the solenoid. Dividing the answer from Part C by the volume of the solenoid gives us the energy density.

Part E: Find the answer for Part D by dividing the answer to Part C by the volume of the solenoid.

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The new de Broglie wavelength (λ') of the accelerated electrons, when the potential difference is increased from V to 2V, is given by option (a) λ/2.

The de Broglie wavelength (λ) of a particle is given by the equation λ = h / p, where h is the Planck's constant and p is the momentum of the particle. In the case of accelerated electrons, their momentum can be related to the potential difference (V) through the equation p = sqrt(2mE), where m is the mass of the electron and E is the energy gained by the electron.

When the potential difference is increased from V to 2V, the energy gained by the electrons doubles. Therefore, the momentum of the electrons also doubles since p ∝ sqrt(E). Substituting this doubled momentum into the equation for de Broglie wavelength (λ' = h / p), we find that λ' = h / (2p) = λ/2.

Hence, the new de Broglie wavelength (λ') of the accelerated electrons, when the potential difference is increased from V to 2V, is given by option (a) λ/2.

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Answer:  a substance which does not readily allow the passage of heat or sound.  so I think A or C but I pick A

Explanation:

Answer:

Answer is B.

Because the wavelength of infrared is shorter than microwave radiation

Explanation:

Hydraulic systems use the pump to push hydraulic fluid through the system to create fluid power. The fluid passes through the valves and flows to the cylinder where the hydraulic energy converts back into mechanical energy. The valves help to direct the flow of the liquid and relieve pressure when needed

(a) The velocity of the particle at t = 6.0 s is 45.6 m/s i - 14 m/s j

(b) The speed of the particle at t = 6.0 s is approximately 47.7 m/s.

(c) The angle between the direction of travel of the particle and the x-axis at this time is approximately -17.2°.

a)

The velocity of the particle is,

vf = vi + a*t

Here,

vi = 21i - 14j m/s  

a = 4.1 m/s² .

Hence,

vf = (21i - 14j) + (4.1 m/s²)(6.0s)i m/s + (-14j) m/s  

vf = (21 + 24.6)i - 14j m/s

vf = 45.6i - 14j m/s

Therefore, the velocity of the particle at t = 6.0 s is 45.6 m/s i - 14 m/s j.

b)

The speed of the particle is,

Speed = |v|

        |v| = √(vx² + vy²)  

Here,

vx = 45.6 m/s  and vy = -14 m/s

Hence,

Speed = |v| = √((45.6 m/s)² + (-14 m/s)²)

           ≈ 47.7 m/s

Therefore, the speed of the particle at t = 6.0 s is approximately 47.7 m/s.

c)

The angle between the direction of travel of the particle and the x-axis is,

tanθ = vy/vx = (-14 m/s) / (45.6 m/s)

    θ = tan⁻¹( (-14 m/s) / (45.6 m/s) )

       ≈ -17.2°

Therefore, the angle between the direction of travel of the particle and the x-axis at this time is approximately -17.2°.

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Answer:

420 s

Explanation:

When the line without wings and the line with wings were the same size, I reported the line without wings as being bigger about 10% of the time. This is consistent with the Muller-Lyer illusion.

The Muller-Lyer illusion is a well-known optical illusion in which people perceive a line with inward-pointing arrowheads as being longer than a line with outward-pointing arrowheads, even though the lines are actually the same length.

There are a number of theories about why the Muller-Lyer illusion occurs. One theory is that the inward-pointing arrowheads suggest the presence of a receding object, while the outward-pointing arrowheads suggest the presence of a coming object. This difference in perspective can lead people to perceive the lines as being different lengths.

Another theory is that the Muller-Lyer illusion is caused by the way our brains process visual information. When we see a line with inward-pointing arrowheads, our brains interpret this as a sign that the line is pointing away from us. This can lead us to perceive the line as being longer than it actually is.

The Muller-Lyer illusion is a fascinating example of how our brains can be fooled by our senses. It is a reminder that our perceptions are not always accurate and that we should be careful about making judgments based on our first impressions.

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