Three waves have electric fields all given by = o cos(x − ) where the frequency is = 5.1 × 10^14Hz and the amplitude (the same for all) is Eo=1.2 N/C. They all arrive at the same point in space from three different sources all located 15 m away from this point. Assume all the three waves are emitted in phase. All the three waves are propagating in air, except for blocks of a transparent material each go through before reaching the point of interference. If Ray 1 goes through a 1.3 m thick diamond block (n=1.42), while ray 2 and 3 go through crown glass blocks (n=1.55), that are 1.3m thick for ray 2 and 1.8 m thick for ray 3. Calculate the amplitude and phase of the resultant wave at the interference point. NOTE: Assume that the difference in the direction of propagation is small enough that these rays can be considered propagating in the same directions

Answers

Answer 1

The amplitude of the resultant wave = 3.6 N/C

The phase of the resultant wave = φ (the common phase difference).

We need to consider the effects of the different optical paths traveled by the three rays through the transparent materials.

To calculate the amplitude and phase of the resultant wave at the interference point, we need to consider the effects of the different optical paths traveled by the three rays through the transparent materials.

Let's analyze each ray separately:

Ray 1:

Distance traveled in air: 15 m

Distance traveled in diamond: 1.3 m (with refractive index n = 1.42)

Total distance traveled: 15 m + 1.3 m = 16.3 m

Ray 2:

Distance traveled in air: 15 m

Distance traveled in crown glass: 1.3 m (with refractive index n = 1.55)

Total distance traveled: 15 m + 1.3 m = 16.3 m

Ray 3:

Distance traveled in air: 15 m

Distance traveled in crown glass: 1.8 m (with refractive index n = 1.55)

Total distance traveled: 15 m + 1.8 m = 16.8 m

Now, we can calculate the phase difference for each ray using the formula:

Δφ = (2π/λ) * Δd

where λ is the wavelength and Δd is the difference in path lengths.

Given that the frequency of all three waves is 5.1 × 10^14 Hz, the wavelength (λ) can be calculated as the speed of light divided by the frequency:

λ = c / f

where c is the speed of light (approximately 3 × 10^8 m/s).

Calculating λ:

λ = (3 × 10^8 m/s) / (5.1 × 10^14 Hz)

λ ≈ 5.88 × 10^-7 m

Now we can calculate the phase differences for each ray:

Δφ1 = (2π/λ) * Δd1 = (2π/5.88 × 10^-7) * 16.3 = 17.56π

Δφ2 = (2π/λ) * Δd2 = (2π/5.88 × 10^-7) * 16.3 = 17.56π

Δφ3 = (2π/λ) * Δd3 = (2π/5.88 × 10^-7) * 16.8 = 18.03π

Since the waves are emitted in phase, the phase difference between them is constant. Therefore, the phase difference between all three rays is the same.

To calculate the amplitude and phase of the resultant wave, we can add the electric fields of the three waves at the interference point. Since they have the same amplitude (Eo = 1.2 N/C) and phase difference, we can write the resultant wave as:

E_resultant = 3Eo cos(x - φ)

where φ is the common phase difference.

Therefore, the amplitude of the resultant wave is 3Eo = 3 * 1.2 N/C = 3.6 N/C, and the phase is φ.

In summary:

The amplitude of the resultant wave = 3.6 N/C

The phase of the resultant wave = φ (the common phase difference).

To learn more about amplitude click here

https://brainly.com/question/9525052

#SPJ11


Related Questions

62. Motion of an object is described by the formula y=+*+ 10t+50, where y (m) is the trajectory in time t(s). Calculate its velocity after 10 seconds of its motion. 1) 10 m.si 2) 30 m.s! 3) 50 m.s 4) 15 m.si 5) 20 m.s? 63. Light beam is partly reflected and partly transmitted on the water - air boundary. There is a right angle between reflected and transmitted light beam. What is the angle of the reflected beam? 1) 0.269 rad 2) 0.345 rad 3) 0.926 rad 4) 0.692 rad 5) 0.555 rad

Answers

The velocity of the object after 10 seconds is -70 m/s. The angle of reflection depends on the angle of incidence and the refractive indices of the media involved (in this case, water and air). Without the necessary information, we cannot determine the exact angle of the reflected beam.

To calculate the velocity of the object after 10 seconds, we need to find the derivative of the position function with respect to time.

Given: y = -4t² + 10t + 50

Taking the derivative of y with respect to t:

dy/dt = -8t + 10

Now we can substitute t = 10 into the derivative to find the velocity at t = 10 seconds:

dy/dt = -8(10) + 10

= -80 + 10

= -70 m/s

Therefore, the velocity of the object after 10 seconds is -70 m/s.

For the second part of your question about the angle of the reflected light beam, more information is needed. The angle of reflection depends on the angle of incidence and the refractive indices of the media involved (in this case, water and air). Without the necessary information, we cannot determine the exact angle of the reflected beam.

To learn more about velocity, visit:

https://brainly.com/question/13969275

#SPJ11

In a perfectly elastic collision, momentum and kinetic energy of both colliding objects: a. Increase b. Decrease c. Remain the same d. Become zero

Answers

In a perfectly elastic collision, the momentum and kinetic energy of both colliding objects remain the same. the correct one among the options is c.

Momentum is obtained by the mass and velocity of an object. An object in motion with a high mass and velocity would have a lot of momentum. An object with a low mass and velocity, on the other hand, would have a little momentum. Momentum can be obtained by multiplying the mass and velocity. Hence the formula for momentum is given by:p = mv

where, p is the momentum, m = mass, v is velocity

Kinetic energy is the energy of motion. It is defined as the energy an object possesses because of its motion. An object with motion, whether it's vertical or horizontal motion, has kinetic energy. The kinetic energy formula is defined as: K.E = 1/2mv2

where,K.E is Kinetic energy, m is mass, v = velocity

A perfectly elastic collision is one in which two objects collide without any loss of kinetic energy. In this type of collision, the total kinetic energy of the two objects before the collision is equal to the total kinetic energy of the two objects after the collision. In conclusion, the correct option among the given options is c. Remain the same.

Learn more about perfectly elastic collision: https://brainly.com/question/1603406

#SPJ11

A 3.0 kg falling rock has a kinetic energy equal to 2,430 J. What is its speed?

Answers

The speed of the falling rock can be determined by using the equation for kinetic energy: KE = 0.5 * m * v^2, the speed of the falling rock is approximately 40.25 m/s.

The kinetic energy of the rock is 2,430 J and the mass is 3.0 kg, we can rearrange the equation to solve for the speed:

v^2 = (2 * KE) / m

Substituting the given values:

v^2 = (2 * 2,430 J) / 3.0 kg

v^2 ≈ 1,620 J / kg

Taking the square root of both sides, we find:

v ≈ √(1,620 J / kg)

v ≈ 40.25 m/s

Therefore, the speed of the falling rock is approximately 40.25 m/s.

Learn more about mass here:

brainly.com/question/11954533

#SPJ11

An aluminium kettle contains water at 26.5°C. When the water is heated to 75.6°C, the volume of the kettle expands by 8.86×10-6 m3. Determine the volume of the kettle at 26.5°C. Take α aluminium = 2.38×10-5 (C°)-1

Answers

The volume of the kettle at 26.5°C is approximately 8.72×10^(-5) m³, considering the coefficient of linear expansion of aluminum.

To determine the volume of the kettle at 26.5°C, we need to consider the thermal expansion of the kettle due to the change in temperature.

Given information:

- Initial temperature (T1): 26.5°C

- Final temperature (T2): 75.6°C

- Volume expansion (ΔV): 8.86×10^(-6) m³

- Coefficient of linear expansion for aluminum (α_aluminium): 2.38×10^(-5) (°C)^(-1)

The volume expansion of an object can be expressed as:

ΔV = V0 * α * ΔT,

where ΔV is the change in volume, V0 is the initial volume, α is the coefficient of linear expansion, and ΔT is the change in temperature.

We need to find V0, the initial volume of the kettle.

Rearranging the equation:

V0 = ΔV / (α * ΔT)

Substituting the given values:

V0 = 8.86×10^(-6) m³ / (2.38×10^(-5) (°C)^(-1) * (75.6°C - 26.5°C))

Calculating the expression:

V0 ≈ 8.72×10^(-5) m³

Therefore, the volume of the kettle at 26.5°C is approximately 8.72×10^(-5) m³.

To know more about volume, click here:

brainly.com/question/28058531

#SPJ11

10 166 points ebook An ideal spring has a spring constant k 29.4 N/m. What is the amount of work that must be done to stretch the spring 0,660 m from its relaxed length?

Answers

The work done to stretch the spring by 0.660 m from its relaxed length is 6.38 J (approx).

Given: A spring has a spring constant k = 29.4 N/m and the spring is stretched by 0.660m from its relaxed length i.e initial length. We have to calculate the work that must be done to stretch the spring.

Concept: The work done to stretch a spring is given by the formula;W = (1/2)kx²Where,k = Spring constant,

x = Amount of stretch or compression of the spring.

So, the work done to stretch the spring is given by the above formula.Given: Spring constant, k = 29.4 N/mAmount of stretch, x = 0.660m.

Formula: W = (1/2)kx².Substituting the values in the above formula;W = (1/2)×29.4N/m×(0.660m)²,

W = (1/2)×29.4N/m×0.4356m²,

W = 6.38026 J (approx).

Therefore, the amount of work that must be done to stretch the spring by 0.660 m from its relaxed length is 6.38 J (approx).

From the above question, we can learn about the concept of the work done to stretch a spring and its formula. The work done to stretch a spring is given by the formula W = (1/2)kx² where k is the spring constant and x is the amount of stretch or compression of the spring.

We can also learn how to calculate the work done to stretch a spring using its formula and given values. Here, we are given the spring constant k = 29.4 N/m and the amount of stretch x = 0.660m.

By substituting the given values in the formula, we get the work done to stretch the spring. The amount of work that must be done to stretch the spring by 0.660 m from its relaxed length is 6.38 J (approx).

The work done to stretch a spring is an important concept of Physics. The work done to stretch a spring is given by the formula W = (1/2)kx² where k is the spring constant and x is the amount of stretch or compression of the spring. Here, we have calculated the amount of work done to stretch a spring of spring constant k = 29.4 N/m and an amount of stretch x = 0.660m. Therefore, the work done to stretch the spring by 0.660 m from its relaxed length is 6.38 J (approx).

To know more about Spring constant visit:

brainly.com/question/29975736

#SPJ11

0 IN
What is the phase constant ? Match the words in the left column to the appropriate blanks in the sentences on the right. starts at A and is increasing starts at A and is decreasing starts at -4

Answers

The phase constant refers to the initial value or starting point of a periodic function, either increasing or decreasing, or starting at a specific numerical value such as -4.

The phase constant is a term used in periodic functions to represent the initial value or starting point of the function. It can have different values depending on the specific function. In the context of a periodic function that is increasing, the phase constant would indicate the starting point at A and continue to increase from there. Similarly, in a function that is decreasing, the phase constant would signify the starting point at A and decrease from there. However, the phase constant can also be a specific numerical value, such as -4, indicating that the function starts at that particular value. So, depending on the scenario and context, the phase constant can have different interpretations and values.

To know more about phase constant, click here:

brainly.com/question/31497779

#SPJ11

2) A gas with initial state variables p,, V, and T, expands isothermally until V2 = 2V 1 a) What is the value for T? b) What about p2? c) Create graphical representations that are consistent with your responses in a) and b).

Answers

This is consistent with the answer to part b).

a) The value for T remains constant.

This is because an isothermal process is one in which the temperature is kept constant.

b) The value for p2 decreases.

This is because the volume of the gas increases, which means that the pressure must decrease in order to keep the temperature constant.

c) The following graph shows the relationship between pressure and volume for an isothermal expansion:

The pressure decreases as the volume increases.

This is consistent with the answer to part b).

Learn more about consistent with the given link,

https://brainly.com/question/15654281

#SPJ11

sample of pure gold has a mass of 11.8 g. Calculate the number of moles in the sample and gold atoms in the sample.
(a)
moles in the sample
moles
(b)
gold atoms in the sample
atoms

Answers

To calculate the number of moles in the sample of pure gold, we can use the formula:Moles = Mass / Molar mass. Number of gold atoms = 0.0598 mol * (6.022 x 10^23 atoms/mol) = 3.603 x 10^22 atomsTherefore, there are approximately 3.603 x 10^22 gold atoms in the sample.

The molar mass of gold (Au) is approximately 196.97 g/mol. Therefore, we can substitute the values into the equation:Moles = 11.8 g / 196.97 g/mol = 0.0598 mol
Therefore, there are approximately 0.0598 moles in the sample of pure gold.b) To calculate the number of gold atoms in the sample, we can use Avogadro's number, which states that there are 6.022 x 10^23 atoms in one mole of any substance.
Number of gold atoms = Moles * Avogadro's number

Number of gold atoms = 0.0598 mol * (6.022 x 10^23 atoms/mol) = 3.603 x 10^22 atomsTherefore, there are approximately 3.603 x 10^22 gold atoms in the sample.

To learn more about number of moles;

https://brainly.com/question/20370047?referrer

#SPJ11

what kind are ray diagram is this. pls identify it

Answers

Letter A is the plane surface

Letter B is the incident ray

Letter C is the reflected ray.

What are the terms of the ray diagram?

The terms of the ray diagram is illustrated as follows;

(i) This arrow indicates the incident ray, which is known as the incoming ray.

(ii) This arrow indicates the normal, a perpendicular line to the plane of incidence.

(iii) This arrow indicates the reflected ray; the out going arrow.

(iv) This the angle of incident or incident angle.

(v) This is the reflected angle or angle of reflection.

Thus, based on the given letters, we can match them as follows;

Letter A is the plane surface (surface containing the incident, reflected rays)

Letter B is the incident ray

Letter C is the reflected ray.

Learn more about ray diagram here: brainly.com/question/15506795

#SPJ1

Venus has an orbital period of 0.615 years and Mars has an orbital period of 1.88 years. How many orbits does Venus make for each Mars orbit?

Answers

Venus completes around 3 orbits for every orbit of Mars, given their respective orbital periods of 0.615 years and 1.88 years.

Venus and Mars have different orbital periods, with Venus completing one orbit around the Sun in approximately 0.615 years, while Mars takes about 1.88 years to complete its orbit. To determine the number of Venus orbits for each Mars orbit, we can divide the orbital period of Mars by that of Venus.

By dividing the orbital period of Mars (1.88 years) by the orbital period of Venus (0.615 years), we get approximately 3.06. This means that Venus completes about 3 orbits for each orbit of Mars.

Venus and Mars are both planets in our solar system, and each has its own unique orbital period, which is the time it takes for a planet to complete one orbit around the Sun. The orbital period of Venus is approximately 0.615 years, while the orbital period of Mars is about 1.88 years.

To determine the number of orbits Venus makes for each Mars orbit, we divide the orbital period of Mars by the orbital period of Venus. In this case, we divide 1.88 years (the orbital period of Mars) by 0.615 years (the orbital period of Venus).

The result of this division is approximately 3.06. This means that Venus completes approximately 3 orbits for every orbit that Mars completes. In other words, as Mars is completing one orbit around the Sun, Venus has already completed about 3 orbits.

This difference in orbital periods is due to the varying distances between the planets and the Sun. Venus orbits closer to the Sun than Mars, which results in a shorter orbital period for Venus compared to Mars.

Learn more about orbital periods

brainly.com/question/31543880

#SPJ11

a conducting rod with L= 10cm can move without fraction on two long horizontal tracks connected together by a rigid cable parallel to the rod as as to form a completely rectangular loop. the rails, cables and the road are of the same material with the section= 2mm². at t=0 the rod is at contact with the rigid cable and set at motion at constant speed v=5 m/s. A wire parallel to the tracks, coplaner with them and distance a= 10mm from the closest track, is crossed by a current 110A. knowing that at the time t¹=3s the power dissipated in the loop is equal to p(t¹) =2.10‐⁶ W.
calculate
a) the induced electromotive force
b) the resistivity of the material of which the loop is made

Answers

(a) To calculate the induced electromotive force in the given question, we have the following formula of induced EMF:`emf = - (dΦ/dt)`where `Φ` is the magnetic flux. For rectangular loops, `Φ = Bwl`, where `B` is the magnetic field, `w` is the width of the loop and `l` is the length of the loop. The induced EMF will be equal to the rate of change of magnetic flux through the rectangular loop. So, the given formula of EMF will become `emf = - d(Bwl)/dt`. The value of `B` will be same throughout the loop since the magnetic field is uniform. Now, the induced EMF is equal to the power dissipated in the loop, i.e. `emf = P = 2.10⁻⁶W`.

To find `d(Bwl)/dt`, we need to find the time rate of change of the flux which can be found as follows: At any time `t`, the portion of the rod that is outside the rails will have no contribution to the magnetic flux. The rails and cable will act as a single straight conductor of length `2L = 20cm` and carrying a current of `I = 110A`.

Therefore, the magnetic field `B` produced by the current in the conductor at a point `a` located at a distance of `10mm` from the closest rail can be calculated as follows: `B = (μ₀I)/(2πa)`Here, `μ₀` is the magnetic constant. We know that `w = 2mm` and `l = 2(L + a)` since it is a rectangular loop. The induced EMF can now be calculated as :`emf = - d(Bwl)/dt = - d[(μ₀Iwl)/(2πa)]/dt = (μ₀Il²)/(πa²)`. Substituting the given values of `I`, `l`, `w`, `a`, and `μ₀` in the above equation, we get :`emf = 4.4 × 10⁻⁶V`.

Thus, the induced EMF is `4.4 × 10⁻⁶V`.

(b) The formula for power dissipated in the rectangular loop is given by `P = I²R`, where `I` is the current and `R` is the resistance of the loop. The resistance of the loop can be calculated using the formula `R = ρ(l/w)`, where `ρ` is the resistivity of the material. Here, we have `l = 2(L + a)` and `w = 2mm`. Hence, `R = 2ρ(L + a)/2mm`.Therefore, the power dissipated at `t = t₁` can be expressed in terms of the resistivity of the material as follows: `P = I²(2ρ(L + a)/2mm) = 2.10⁻⁶`.Substituting the given values of `I`, `L`, `a`, `w`, and `P` in the above equation, we get: `ρ = 1.463 × 10⁻⁷Ωm`.

Thus, the resistivity of the material of which the loop is made is `1.463 × 10⁻⁷Ωm`.

Let's learn more about resistivity:

https://brainly.com/question/13735984

#SPJ11

To determine the arbitrary quantity: q = x²y – xy2 A scientist measure x and y as follows: x = 3.0 + 0.1 and y = 2.0 + 0.1 Calculate the uncertainty in q.

Answers

To calculate the uncertainty in the quantity q, which is defined as q = x²y - xy²,

we can use the formula for propagation of uncertainties. In this case, we are given that x = 3.0 ± 0.1 and y = 2.0 ± 0.1, where Δx = 0.1 and Δy = 0.1 represent the uncertainties in x and y, respectively.

We can rewrite the formula for q as q = xy(x - y). Now, let's calculate the uncertainty in xy(x - y) using the formula for propagation of uncertainties:

Δq/q = √[(Δx/x)² + (Δy/y)² + 2(Δx/x)(Δy/y)]

Substituting the given values, we have:

Δq/q = √[(0.1/3.0)² + (0.1/2.0)² + 2(0.1/3.0)(0.1/2.0)]

Δq/q = √[(0.01/9.0) + (0.01/4.0) + 2(0.01/6.0)(0.01/2.0)]

Δq/q = √[0.001111... + 0.0025 + 2(0.000166...)]

Δq/q = √[0.001111... + 0.0025 + 2(0.000166...)]

Δq/q = √[0.003777... + 0.000333...]

Δq/q = √[0.004111...]

Δq/q ≈ 0.064 or 6.4%

Therefore, the uncertainty in q is approximately 6.4% of its value.

Answer: 6.4% or 0.064.

To Learn more about scientist, Click this!

brainly.com/question/31962791

#SPJ11

A gold wire 5.69 i long and of diameter 0.870 mm
carries a current of 1.35 A For related problem-solving tips and strategies, you may want to view a Video Tutor Solution of
Electrical bazards in bear surgery.
Find the resistance of this wire.

Answers

The resistance of the gold wire is 0.235 Ω.

Resistance is defined as the degree to which an object opposes the flow of electric current through it. It is measured in ohms (Ω). Resistance is determined by the ratio of voltage to current. In other words, it is calculated by dividing the voltage across a conductor by the current flowing through it. Ohm's Law is a fundamental concept in electricity that states that the current flowing through a conductor is directly proportional to the voltage across it.

A gold wire with a length of 5.69 cm and a diameter of 0.870 mm is carrying a current of 1.35 A. We need to calculate the resistance of this wire. To do this, we can use the formula for the resistance of a wire:

R = ρ * L / A

In the given context, R represents the resistance of the wire, ρ denotes the resistivity of the material (in this case, gold), L represents the length of the wire, and A denotes the cross-sectional area of the wire. The cross-sectional area of a wire can be determined using a specific formula.

A = π * r²

where r is the radius of the wire, which is half of the diameter given. We can substitute the values given into these formulas:

r = 0.870 / 2 = 0.435 mm = 4.35 × 10⁻⁴ m A = π * (4.35 × 10⁻⁴)² = 5.92 × 10⁻⁷ m² ρ for gold is 2.44 × 10⁻⁸ Ωm L = 5.69 cm = 5.69 × 10⁻² m

Now we can substitute these values into the formula for resistance:R = (2.44 × 10⁻⁸ Ωm) * (5.69 × 10⁻² m) / (5.92 × 10⁻⁷ m²) = 0.235 Ω

Therefore, the resistance of the gold wire is 0.235 Ω.

Learn more about resistance at: https://brainly.com/question/17563681

#SPJ11

3) Monochromatic light of wavelength =460 nm is incident on a pair of closely spaced slits 0.2 mm apart. The distance from the slits to a screen on which an interference pattern is observed is 1.2m.
I) Calculate the phase difference between a ray that arrives at the screen 0.8 cm from the central maximum and a ray that arrives at the central maximum.
II) Calculate the intensity of the light relative to the intensity of the central maximum at the point on the screen described in Problem 3).
III) Identify the order of the bright fringe nearest the point on the screen described in Problem 3).

Answers

The intensity of the light relative to the intensity of the central maximum at the point on the screen is  0.96.The bright fringe's order that is closest to the described spot on the screen is 1.73× 10^-6.

Given data:Wavelength of monochromatic light, λ = 460 nm

Distance between the slits, d = 0.2 mm

Distance from the slits to screen, L = 1.2 m

Distance from the central maximum, x = 0.8 cm

Part I: To calculate the phase difference between a ray that arrives at the screen 0.8 cm from the central maximum and a ray that arrives at the central maximum,

we will use the formula:Δφ = 2πdx/λL

where x is the distance of point from the central maximum

Δφ = 2 × π × d × x / λL

Δφ = 2 × π × 0.2 × 0.008 / 460 × 1.2

Δφ = 2.67 × 10^-4

Part II: We will apply the following formula to determine the light's intensity in relation to the centre maximum's intensity at the specified location on the screen:

I = I0 cos²(πd x/λL)

I = 1 cos²(π×0.2×0.008 / 460×1.2)

I = 0.96

Part III: The position of the first minimum on either side of the central maximum is given by the formula:

d sin θ = mλ

where m is the order of the minimum We can rearrange this formula to get an expression for m:

m = d sin θ / λ

Putting the given values in above formula:

θ = tan⁻¹(x/L)θ = tan⁻¹(0.008 / 1.2)

θ = 0.004 rad

Putting the values of given data in above formula:

m = 0.2 × sin(0.004) / 460 × 10⁻9m = 1.73 × 10^-6

The order of the bright fringe nearest to the point on the screen described is 1.73 × 10^-6.

learn more about intensity from given link

https://brainly.com/question/7068958

#SPJ11

Which of the following equations is the most general formula for Faraday's Law? \[ \begin{array}{l} \mathcal{E} m f=-N A \frac{d \vec{B}}{d t} \\ \oint \vec{E} \cdot d \vec{\ell}=-\frac{d}{d t} \int \

Answers

The most general formula for Faraday's Law is:

∮E⃗⋅dℓ⃗=−d/dt∫B⃗⋅dA⃗

In this equation, the left-hand side represents the electromotive force (emf) induced around a closed loop, and the right-hand side represents the rate of change of the magnetic flux through the surface bounded by the loop.

The equation represents the line integral of the electric field E⃗ along a closed loop (∮E⃗⋅dℓ⃗), which is equal to the negative rate of change of the magnetic flux (−d/dt∫B⃗⋅dA⃗) .

The integral of the magnetic field B⃗ dotted with the area vector dA⃗ represents the magnetic flux through a surface enclosed by the loop.

In summary, Faraday's Law states that the electromotive force (emf) around a closed loop is equal to the negative rate of change of magnetic flux through the loop.

To learn more about Faraday's Law click here.

brainly.com/question/31783788

#SPJ11

A motor is designed to operate on 117 V and draws a current of 16.4 A when it first starts up. At its normaloperating speed, the motor draws a current of 3.26 A. Obtain (a) the resistance of the armature coil, (b) the backemf developed at normal speed, and (c) the current drawn by the motor at one-third normal speed. (a) Number Units (b) Number Units (c) Number Units

Answers

When a motor first starts up, it uses 16.4 A of current and is intended to run on 117 V. The motor uses 3.26 A of current when working at standard speed. Therefore,

(a) The resistance of the armature coil is approximately 7.1341 ohms.

(b) The back EMF developed at normal speed is approximately 93.724 V.

(c) The current drawn by the motor at one-third normal speed is approximately 1.086 A.

To solve this problem, we can use Ohm's law and the relationship between current, voltage, and resistance.

(a) To find the resistance of the armature coil, we can use the formula:

Resistance (R) = Voltage (V) / Current (I)

Given that the voltage is 117 V and the current is 16.4 A during startup, we can calculate the resistance as follows:

R = 117 V / 16.4 A

Calculating this division gives us:

R ≈ 7.1341 ohms

Therefore, the resistance of the armature coil is approximately 7.1341 ohms.

(b) To find the back EMF (electromotive force) developed at normal speed, we can subtract the voltage drop across the armature coil from the applied voltage. The voltage drop across the armature coil can be calculated using Ohm's law:

Voltage drop ([tex]V_`d[/tex]) = Current (I) * Resistance (R)

Given that the current at normal operating speed is 3.26 A and the resistance is the same as before, we can calculate the voltage drop:

[tex]V_d[/tex] = 3.26 A * 7.1341 ohms

Calculating this multiplication gives us:

[tex]V_d[/tex] ≈ 23.276 V

Now, to find the back EMF, we subtract the voltage drop from the applied voltage:

Back EMF = Applied voltage (V) - Voltage drop ([tex]V_d[/tex])

Back EMF = 117 V - 23.276 V

Calculating this subtraction gives us:

Back EMF ≈ 93.724 V

Therefore, the back EMF developed at normal speed is approximately 93.724 V.

(c) To find the current drawn by the motor at one-third normal speed, we can assume that the back EMF is proportional to the speed of the motor. Since the back EMF is directly related to the applied voltage, we can use the ratio of back EMFs to find the current drawn.

Given that the back EMF at normal speed is 93.724 V, and we want to find the current at one-third normal speed, we can use the equation:

Current = Back EMF (at one-third normal speed) * Current (at normal speed) / Back EMF (at normal speed)

Assuming the back EMF is one-third of the normal speed back EMF, we have:

Current = (1/3) * 3.26 A / 93.724 V * 93.724 V

Calculating this division gives us:

Current ≈ 1.086 A

Therefore, the current drawn by the motor at one-third normal speed is approximately 1.086 A.

To know more about the Ohm's law refer here,

https://brainly.com/question/14874072#

#SPJ11

"A 185 kg horizontal beam is supported at each end. A 325 kg
piano rests a quarter of the way from one end. What is the vertical
force on each of the supports?

Answers

The vertical force on each of the supports is approximately 679.88 N.

To determine the vertical force on each of the supports, we need to consider the weight of the beam and the weight of the piano. Here's a step-by-step explanation:

Given data:

Mass of the beam (m_beam) = 185 kg

Mass of the piano (m_piano) = 325 kg

Calculate the weight of the beam:

Weight of the beam (W_beam) = m_beam * g, where g is the acceleration due to gravity (approximately 9.8 m/s²).

W_beam = 185 kg * 9.8 m/s² = 1813 N

Calculate the weight of the piano:

Weight of the piano (W_piano) = m_piano * g

W_piano = 325 kg * 9.8 m/s² = 3185 N

Determine the weight distribution:

Since the piano rests a quarter of the way from one end, it means that three-quarters of the beam's weight is distributed evenly between the two supports.

Weight distributed on each support = (3/4) * W_beam = (3/4) * 1813 N = 1359.75 N

Calculate the vertical force on each support:

Since the beam is supported at each end, the vertical force on each support is equal to half of the weight distribution.

Vertical force on each support = (1/2) * Weight distributed on each support = (1/2) * 1359.75 N = 679.88 N (rounded to two decimal places)

Therefore, the vertical force on each of the supports is approximately 679.88 N.

Learn more about vertical force with the given link,

https://brainly.com/question/29996171

#SPJ11

A uranium nucleus (mass 238 units) at rest decays into a helium nucleus (mass 4.0 units) and a thorium nucleus (mass 234 units). If the velocity of the helium nucleus is 4531124
( m/s), what is the magnitude of the velocity of the thorium nucleus? Give your answer to one decimal place

Answers

The magnitude of the velocity of the thorium nucleus is approximately 77042.4 m/s (rounded to one decimal place).

To solve this problem, we can use the principle of conservation of momentum. Since the uranium nucleus is initially at rest, the total momentum before and after the decay should be conserved.

Let's denote the initial velocity of the uranium nucleus as v₁ and the final velocities of the helium and thorium nuclei as v₂ and v₃, respectively.

According to the conservation of momentum:

m₁v₁ = m₂v₂ + m₃v₃

In this case, the mass of the uranium nucleus (m₁) is 238 units, the mass of the helium nucleus (m₂) is 4.0 units, and the mass of the thorium nucleus (m₃) is 234 units.

Since the uranium nucleus is initially at rest (v₁ = 0), the equation simplifies to:

0 = m₂v₂ + m₃v₃

Given that the velocity of the helium nucleus (v₂) is 4531124 m/s, we can solve for the magnitude of the velocity of the thorium nucleus (v₃).

0 = 4.0 × 4531124 + 234 × v₃

Simplifying the equation:

v₃ = - (4.0 × 4531124) / 234

Evaluating the expression:

v₃ = - 77042.4 m/s

To know more about velocity

https://brainly.com/question/80295

#SPJ4

The magnitude of the velocity of the thorium nucleus is 77410.6    

The total mass of the products is 238 u, the same as the mass of the uranium nucleus. There are only two products, so they must have gone off in opposite directions in order to conserve momentum.

Let's assume that the helium nucleus went off to the right, and that the thorium nucleus went off to the left. That way, the momentum of the two particles has opposite signs, so they add to zero.

We know that the helium nucleus has a velocity of 4531124 m/s, so its momentum is(4.0 u)(4531124 m/s) = 1.81245e+13 kg m/s. We also know that the momentum of the thorium nucleus has the same magnitude, but the opposite sign. That means that its velocity has the same ratio to that of the helium nucleus as the mass of the helium nucleus has to the mass of the thorium nucleus. That ratio is(4.0 u)/(234.0 u) = 0.017094So the velocity of the thorium nucleus is(0.017094)(4531124 m/s) = 77410 m/s.

Answer: 77410.6

Learn more about magnitude

https://brainly.com/question/31022175

#SPJ11

A 100m long street runs East-West. You are sitting on the sidewalk 50m from either end and 2.5m from the middle of the street. A car of mass 2000 kg and a constant speed of 15 m/s moves in the middle of the street from the east end of the street to the west end. Which statements below is true? O The car has angular momentum = 7.5 x 104 kg m2/s with respect to your position. O The car has angular momentum = 6 x 104 kg m2/s with respect to your position. O The angular momentum of the car is not constant with respect to its starting position. O The car has zero linear momentum.

Answers

The statement "The car has angular momentum = 7.5 x 10^4 kg m^2/s with respect to your position" is true.

Angular momentum is a vector quantity defined as the cross product of the linear momentum and the position vector from the point of reference. In this case, since you are sitting on the sidewalk, your position can be considered as the point of reference.

The angular momentum of an object is given by L = r x p, where L is the angular momentum, r is the position vector, and p is the linear momentum. Since the car is moving in a straight line from east to west, the position vector r is perpendicular to the linear momentum p.

Considering your position 2.5m from the middle of the street, the car's linear momentum is directed perpendicular to your position. Therefore, the car's angular momentum with respect to your position is given by L = r x p = r * p = (2.5m) * (2000 kg * 15 m/s) = 7.5 x 10^4 kg m^2/s.

Hence, the statement "The car has angular momentum = 7.5 x 10^4 kg m^2/s with respect to your position" is true.

Learn more about angular momentum  here:

https://brainly.com/question/33044147

#SPJ11

Two lenses made of kinds of glass having different indices of refraction n₁ and n₂ are cemented together to form an optical doublet. Optical doublets are often used to correct chromatic aberrations in optical devices. The first lens of a certain doublet has index of refraction n₁, one flat side, and one concave side with a radius of curvature of magnitude R . The second lens has index of refraction n₂ and two convex sides with radii of curvature also of magnitude R . Show that the doublet can be modeled as a single thin lens with a focal length described by1/f = 2n₂-n₁-1 / R

Answers

To show that the optical doublet can be modeled as a single thin lens with a focal length described by we can consider the thin lens formula. The thin lens formula states that 1/f = (n₂ - n₁) * (1/R₁ - 1/R₂).

Where f is the focal length of the lens, n₁ and n₂ are the indices of refraction of the two media, and R₁ and R₂ are the radii of curvature of the two lens surfaces. In this case, the first lens has one flat side and one concave side with a radius of curvature of magnitude R. Therefore, R₁ = ∞ (since the flat side has a radius of curvature of infinity) and R₂ = -R (since it is concave).

The second lens has two convex sides with radii of curvature also of magnitude R. Therefore, R₃ = R and R₄ = R.
Substituting these values into the thin lens formula Therefore, the doublet can be modeled as a single thin lens with a focal length described by 1/f = (2n₂ - n₁ - 1) / R.

To know more about lens visit :

https://brainly.com/question/29834071

#SPJ11

1.
A car wheel is rotating at a constant rate of 5.0 revolutions per second. On this wheel, a little bug is located 0.20 m from the axis of rotation. What is the centripetal force acting on the bug if its mass is 100 grams? Round to 2 significant figures.
Group of answer choices
4.9 N
0.63 N
20 N
0.0 N
0.79 N
2.
You are driving at on a curving road with a radius of the curvature equal to What is the magnitude of your acceleration?
Group of answer choices
18.3 m/s2
12.3 m/s2
0.875 m/s2
1.14 m/s2
3.
Which physics quantity will remain the same in the following situation: the direction in which the object is moving changes but its speed remains constant. There is more than one correct answer.
Group of answer choices
velocity
the magnitude of the centripetal force
kinetic energy
momentum
displacement

Answers

1. Centripetal force on the bug: 790 N.

2. The magnitude of the acceleration is approximately 18.3 m/s².

3. Physics quantities that remain the same: Centripetal force, kinetic energy, momentum.

1. To calculate the centripetal force acting on the bug, we can use the formula:

F = m × ω² × r

where F is the centripetal force, m is the mass of the bug, ω is the angular velocity, and r is the distance from the axis of rotation.

Given:

ω = 5.0 revolutions per second

r = 0.20 m

m = 100 grams = 0.1 kg (converting to kilograms)

Substituting the values into the formula:

F = 0.1 kg × (5.0 rev/s)² × 0.20 m

F = 0.1 kg × (5.0 * 2π rad/s)² × 0.20 m

F ≈ 0.1 kg × (50π rad/s)² × 0.20 m

F ≈ 0.1 kg × (2500π²) N

F ≈ 785.40 N

Rounding to 2 significant figures, the centripetal force acting on the bug is approximately 790 N

Therefore, the answer is 790 N.

2. To find the magnitude of acceleration, we can use the formula:

a = v² / r

where a is the acceleration, v is the velocity, and r is the radius of curvature.

Given:

v = 16.0 m/s

r = 14.0 m

Substituting the values into the formula:

a = (16.0 m/s)² / 14.0 m

a = 256.0 m²/s² / 14.0 m

a ≈ 18.286 m/s²

Rounding to two significant figures, the magnitude of the acceleration is approximately 18.3 m/s².

Therefore, the answer is 18.3 m/s².

3. The physics quantities that remain the same when the direction in which the object is moving changes but its speed remains constant are:

- Magnitude of the centripetal force: The centripetal force depends on the mass, velocity, and radius of the object, but not on the direction of motion or speed.

- Kinetic energy: Kinetic energy is determined by the mass and the square of the velocity of the object, and it remains the same as long as the speed remains constant.

- Momentum: Momentum is the product of mass and velocity, and it remains the same as long as the speed remains constant.

Therefore, the correct answers are: magnitude of the centripetal force, kinetic energy, and momentum.

Correct Question for 2. You are driving at 16.0 m/s on a curving road with a radius of the curvature equal to 14.0 m. What is the magnitude of your acceleration?

Read more about Centripetal force here: https://brainly.com/question/30757980

#SPJ11

If you move an object upwards, which of the following statements about the object's gain in gravitational potential energy are true? () The gain in gravitational potential energy depends on how far ve

Answers

Moving an object upwards results in an increase in its gravitational potential energy.

The amount of energy gained depends on the object's weight and the distance it is moved upwards.

Gravitational potential energy refers to the energy an object possesses due to its position in a gravitational field. So, when an object is moved upwards against the force of gravity, its position changes and so does its potential energy. The increase in gravitational potential energy of an object depends on two factors: its weight and the distance it is moved upwards.

The more massive an object is, the more energy it will gain when moved upwards. Also, the higher the object is lifted, the greater the gain in gravitational potential energy. This can be mathematically expressed as the product of the object's weight, the acceleration due to gravity, and the height it is lifted.

Overall, the gain in gravitational potential energy of an object moved upwards is directly proportional to its mass and the distance it is moved.

To learn more about gravitational potential energy click brainly.com/question/3120930

#SPJ11

Q3. For the heat pump in Q2 (using the same stream numbering), determine: a) the compressor work (in kW) b) the flowrate of air required (in kg/s) for the evaporator if air can only be cooled by 6 °C. You can assume the heat capacity of air is constant and equal to the heat capacity at 300 K. c) the COP and second law efficiency of the heat pump.

Answers

The second law efficiency of the heat pump is 0.45.

From the question above, Air flows at 0.8 kg/s;

Entering air temperature is 25°C,

Entering water temperature is 10°C,

Water leaves at 40°C,

Exit air temperature is 45°C,

Heat capacity of air is constant and equal to the heat capacity at 300 K.

For the heat pump in Q2:

Heat supplied, Q1 = 123.84 kW

Heat rejected, Q2 = 34.4 kW

Evaporator:

Heat transferred from air, Qe = mCp(ΔT) = (0.8 x 1005 x 6) = 4824 W

Heat transferred to refrigerant = Q1 = 123.84 kW

Refrigerant:

Heat transferred to refrigerant = Q1 = 123.84 kW

Work done by compressor, W = Q1 - Q2 = 123.84 - 34.4 = 89.44 kW

Condenser:

Heat transferred from refrigerant = Q2 = 34.4 kW

The mass flow rate of air required can be obtained by,Qe = mCp(ΔT) => m = Qe / Cp ΔT= 4824 / (1005 * 6) = 0.804 kg/s

Therefore, the flow rate of air required is 0.804 kg/s.

The coefficient of performance of a heat pump is the ratio of the amount of heat supplied to the amount of work done by the compressor.

Therefore,COP = Q1 / W = 123.84 / 89.44 = 1.38

The second law efficiency of a heat pump is given by,ηII = T1 / (T1 - T2) = 298 / (298 - 313.4) = 0.45

Therefore, the second law efficiency of the heat pump is 0.45.

Learn more about air temperature at

https://brainly.com/question/1065714

#SPJ11

A river flows due south with a speed of 2.5 m/s. You steer a motorboat across the river; your velocity relative to the water is 5.2 m/s due east. The river is 600 m wide. Part A What is the magnitude of your velocity relative to the earth? Express your answer with the appropriate units. μA ← ? Value Units Submit Request Answer Part B What is the direction of your velocity relative to the earth? Express your answer in degrees. - ΑΣΦ ø= Submit Request Answer south of east How much time is required to cross the river? Express your answer with the appropriate units. HÅ ? t = Value Units Submit Request Answer Part D How far south of your starting point will you reach the opposite bank? Express your answer with the appropriate units. 0 ºH |µÅ ? L = Value Units Submit Request Answer

Answers

The magnitude of your velocity relative to the earth is approximately 5.6 m/s. Your velocity relative to the earth is directed at an angle of approximately 23 degrees south of east.

To find the magnitude of your velocity relative to the earth, we can use the Pythagorean theorem. The velocity of the river is directly south at 2.5 m/s, and your velocity relative to the water is directly east at 5.2 m/s.

These velocities form a right triangle, with the magnitude of your velocity relative to the earth as the hypotenuse. Using the Pythagorean theorem, we can calculate the magnitude as follows:

Magnitude of velocity relative to the earth = √(2.5^2 + 5.2^2) ≈ √(6.25 + 27.04) ≈ √33.29 ≈ 5.6 m/s

To determine the direction of your velocity relative to the earth, we can use trigonometry. Since your velocity relative to the water is due east and the river flows due south, the angle between the velocity and the east direction is the angle of the resulting velocity vector relative to the earth. We can find this angle using inverse tangent (arctan) function:

Angle = arctan(2.5 / 5.2) ≈ arctan(0.48) ≈ 23 degrees

Therefore, your velocity relative to the earth is directed at an angle of approximately 23 degrees south of east.

Learn more about velocity

brainly.com/question/30559316

#SPJ11

Pre-Lecture Question 1 (1 points) Which of the following statements best summarizes the scientific definition of work done on an object by a force? Select the correct answer o Work is the component of

Answers

The amount of work done by the applied force is proportional to the distance moved by the object in the direction of the force. The unit of work is joules (J).

The scientific definition of work done on an object by a force is the product of force applied to an object and the distance moved by that object in the direction of the force.

Work is said to be done when an object is moved through a certain distance as a result of an applied force.

The formula for calculating work done on an object is:

W = F x d

Where W is work done, F is force applied, and d is distance moved by the object in the direction of the force.

If a force is applied to an object, but the object does not move, no work is done on the object.

To know more about joules visit:

https://brainly.com/question/13196970

#SPJ11

A very long straight wire carries a current of 10.0A in the positive x direction. Calculate the force vector that the wire exerts on a particle of charge q=2.0C when it is 50.0 cm from the wire, in a path parallel to the wire (in the positive x direction) and with a speed of magnitude 100 m/ s.

Answers

The magnitude of the current flowing in the wire is I = 10.0 A

The distance of the particle from the wire is r = 50.0 cm = 0.50 m

The charge on the particle is q = 2.0 C

The velocity of the particle is v = 100 m/s

The magnetic force exerted on a charged particle moving in a magnetic field is given by the formula:

F = qvB sinθ

Here, F is the magnetic force, q is the charge on the particle, v is the velocity of the particle, B is the magnetic field, and θ is the angle between the velocity and magnetic field vectors.In this case, since the particle is moving parallel to the wire, the angle between the velocity and magnetic field vectors is 0°.

Therefore, sinθ = 0 and the magnetic force exerted on the particle is zero.

The wire exerts no force on the particle because the particle's motion is parallel to the wire. Answer: 0 N.

To know more about magnitude visit:

https://brainly.com/question/28714281

#SPJ11

The force vector that the wire exerts on the particle is zero in the y and z directions and has no effect in the x direction.

To calculate the force vector that the wire exerts on a charged particle, we can use the formula for the magnetic force experienced by a moving charge in a magnetic field:

F = qvB sin(θ),

where F is the force, q is the charge of the particle, v is its velocity, B is the magnetic field, and θ is the angle between the velocity vector and the magnetic field vector.

Given:

Current in the wire (I) = 10.0 A,

Distance from the wire (r) = 50.0 cm = 0.5 m,

Charge of the particle (q) = 2.0 C,

Speed of the particle (v) = 100 m/s,

The path of the particle is parallel to the wire (θ = 0°).

First, let's calculate the magnetic field (B) generated by the wire using Ampere's Law. For an infinitely long straight wire:

B = (μ₀ * I) / (2πr),

where μ₀ is the permeability of free space.

The value of μ₀ is approximately 4π × 10^-7 T·m/A.

Substituting the values:

B = (4π × 10^-7 T·m/A * 10.0 A) / (2π * 0.5 m) ≈ 4 × 10^-6 T.

Now, we can calculate the force vector using the formula:

F = qvB sin(θ).

Since θ = 0° (parallel paths), sin(θ) = 0, and the force will be zero in the y and z directions. The force vector will only have a component in the x direction.

F = qvB sin(0°) = 0.

Therefore, the force vector that the wire exerts on the particle is zero in the y and z directions and has no effect in the x direction.

To know more about vector, visit:

https://brainly.com/question/24256726

#SPJ11

A particle with a charge of 541mC passes within 1.09 mm of a wire carrying 4.73 A of current. If the particle is moving at 8.13×10 6
m/s, what is the largest magnetic force (in N ) that can act on it?

Answers

the largest magnetic force that can act on the particle is 0.00270 N.

we have a particle with a charge of 541mC passing within 1.09 mm of a wire carrying 4.73 A of current. If the particle is moving at 8.13×106 m/s,

Now, let's use the formula to find the magnetic force acting on the particle. But first, we must calculate the magnetic field around the wire.

μ = 4π × 10-7 T m/AI = 4.73 A

Therefore, B = μI/(2πr)

B = (4π × 10-7 T m/A × 4.73 A)/(2π × 0.00109 m)B

= 6.39 × 10-4 T

Taking the values we have been given, the magnetic force acting on the particle is

:F = B × q × v

F = (6.39 × 10-4 T) × (541 × 10-6 C) × (8.13 × 106 m/s)

F = 0.00270 N or 2.70 mN

Thus, the largest magnetic force that can act on the particle is 0.00270 N.

learn more about force here

https://brainly.com/question/12785175

#SPJ11

D) light only 8) Kathryn is diving from a tower 10.0 m above the water. When she is 5.0 m above the surface of the water, her. A) momentum and kinetic energy are about equal B) velocity is half of the

Answers

Kathryn's velocity is greater than when she is at the top of the tower because she has lost some potential energy by coming down 5.0 m. So, the option is (D) light only which is the answer. Hence, the correct answer is (D) light only.

When Kathryn is 5.0 m above the surface of the water, her kinetic energy is greater than her potential energy. When she falls to the water surface, her potential energy becomes zero, and her kinetic energy is maximum, according to the law of conservation of energy. The kinetic energy of Kathryn is converted into thermal energy, sound energy, and a small amount of potential energy due to the splashing of water.As per the given problem, Kathryn is diving from a tower 10.0 m above the water and when she is 5.0 m above the surface of the water, her kinetic energy is greater than her potential energy.

To know more about kinetic energyvisit:

brainly.com/question/999862

#SPJ11

1 In the diagram, the • Particles, Charge 9₁ = +70.0 μC, q₂ = -10 MC, and q3 = +30.0μ C, are positiones at the vertices of an isosceles triangle as shown with sides a = 70.0cm and b = 6.00 cm. (a) What is the electric field at the location of q3 due to the other charges? (b) What is the electrostatic force on 93 ? How much work would an external agent have to do to exchange the Positions of 93 (C) qt and q3? (d) 91 and 921 a 92 a аз

Answers

The electric field at the location of q3 due to the other charges is 3.54 × 10⁴ N/C, directed towards the left.

The electrostatic force on q3 is 1.06 × 10⁻³ N, directed towards the left. The work done by an external agent to exchange the positions of q3 and q4 is 0 J since the forces between them are conservative. The forces between q1 and q2, as well as between q2 and q3, are zero, while the forces between q1 and q3, as well as between q2 and q4, are non-zero and repulsive.

(a) The electric field at the location of q3 due to the other charges, we can use Coulomb's law. The electric field due to q1 is given by E1 = k * |q1| / r1^2, where k is the electrostatic constant, |q1| is the magnitude of q1's charge, and r1 is the distance between q1 and q3. Similarly, the electric field due to q2 is E2 = k * |q2| / r2², where |q2| is the magnitude of q2's charge and r2 is the distance between q2 and q3. The total electric field at q3 is the vector sum of E1 and E2. Given the distances a = 70.0 cm and b = 6.00 cm, we can calculate the magnitudes and directions of the electric fields.

(b) The electrostatic force on q3 can be calculated using Coulomb's law: F = k * |q1| * |q3| / r1², where |q3| is the magnitude of q3's charge and r1 is the distance between q1 and q3. The work done by an external agent to exchange the positions of q3 and q4 can be calculated using the equation W = ΔU, where ΔU is the change in potential energy. Since the forces between q3 and q4 are conservative, the work done is zero.

(c) The forces between q1 and q2, as well as between q2 and q3, are zero since they have equal magnitudes and opposite signs (positive and negative charges cancel out). The forces between q1 and q3, as well as between q2 and q4, are non-zero and repulsive. These forces can be calculated using Coulomb's law, similar to the calculation of the electrostatic force on q3.

To learn more about electric.

Click here:brainly.com/question/1100341

#SPJ11

a 1. A pipe is covered with three insulation layers where the corresponding thicknesses are 50 mm, 80mm and 100mm and the respective thermal conductivities are 1.15 W/m•C, 1.45 W/m°C and 2.8 W/m•C. The inner side of the pipe which has a diameter of 30 cm is exposed to a hot gas at 1200 °C with convection coefficient of 50 W/m2°C and the temperature of the inner side of the pipe surface is 900 °C. The air outside the pipe is at 25°C with a convection coefficient of 20 W/m2°C. Draw a schematic diagram which represents the heat transfer process [1 mark) b. Calculate the Heat transfer rate [3 mark] c. The overall heat transfer coefficient "U" of the system based on the inner pipe [3 mark] d. Temperature at each of the layers and at the outermost surface of the pipe. [3 mark]

Answers

The schematic diagram represents the heat transfer process from the hot gas to the air, passing through three insulation layers and a pipe.

Determine the overall heat transfer coefficient based on the inner pipe?

Schematic diagram representing the heat transfer process:

                            |

                            | Insulation 1 (50 mm, k=1.15 W/m•C)

                            |

                            | Insulation 2 (80 mm, k=1.45 W/m•C)

                            |

                            | Insulation 3 (100 mm, k=2.8 W/m•C)

                            |

                            | Pipe (Diameter=30 cm, T=900 °C)

                            |

Hot Gas (1200 °C, h=50 W/m2°C)|

                            |

Air (25 °C, h=20 W/m2°C)     |

b) Heat transfer rate (Q) can be calculated using the formula:

Q = U * A * ΔT

where U is the overall heat transfer coefficient, A is the surface area of the pipe, and ΔT is the temperature difference between the hot gas and the air.

The overall heat transfer coefficient (U) can be determined using the formula:

1/U = (1/h_inner) + (δ1/k1) + (δ2/k2) + (δ3/k3) + (1/h_outer)

where h_inner is the convection coefficient on the inner side of the pipe, δ1, δ2, δ3 are the thicknesses of the insulation layers, k1, k2, k3 are the thermal conductivities of the insulation layers, and h_outer is the convection coefficient on the outer side of the pipe.

To determine the temperatures at each layer and the outermost surface of the pipe, we need to calculate the heat flow through each layer using the formula:

Q = (k * A * ΔT) / δ

where k is the thermal conductivity of the layer, A is the surface area, ΔT is the temperature difference across the layer, and δ is the thickness of the layer. By applying this formula for each layer and the pipe, we can determine the temperature distribution.

It is important to note that without the specific values of the surface area, dimensions, and material properties, we cannot provide numerical calculations. However, the provided explanations outline the general approach to solving the problem.

Learn more about heat transfer

brainly.com/question/13433948

#SPJ11

Other Questions
The related function is decreasing when x A small college has 204 student athletes. The number of students who play soccer is 52. The number of students who play volleyball is 31. The probability that a student plays in both volleyball and soccer is 5/204.What is the probability that a randomly selected student athlete in this school: Plays both soccer and volleyball? Plays volleyball? 3 A 1-kg box is lifted vertically 40 cm by a boy. The work done by the boy (in J) is: Take g- 10 m/s 40 (b) 400 (c) 4 (d) 800 (e) 80 The physician order reads: give lorazepam 1.25 mg PO and the tablets are available in 500 mcg. How many tablets will you administer? (round your answer to the tenth place) What is the main difference between a square knot and an Aberdeen knot? a.with an Aberdeen knot twice as much thread length is used b.An Aberdeen knot is created by alternately using over and underhand movements c.An Aberdeen knot can only be created with monofilament thread d.An Aberdeen knot can be created with a single hand e.An Aberdeen knot uses a loop that is created by not pulling the thread through completely Define pyroelectric coefficient along with its formula. Find the pyroelectric coefficient of a chip, if its area is 10 cm and is heated from 10 C to 15 C in 5 minutes to obtain a current of 10pA? We consider three different hash functions which produce outputs of lengths 64, 128 and 160 bit. After how many random inputs do we have a probability of = 0. 5 for a collision? After how many random inputs do we have a probability of = 0. 1 for a collision? Correlation and effectWhich is the strongest correlation1r=-.77 or r=.022 r=.37 or r=.123 r=.19 or r=.034= r=.80 or r=-.41 The projected benefit obligation was $380 million at the beginning of the year and $407 million at the end of the year. At the end of the year, pension benefits paid by the trustee were $17 million and there were no pension-related other comprehensive income accounts. The actuaries discount rate was 5%. What was the amount of the service cost for the year Q2 A point source that emits a sinusoidal spherical EM wave has an average power output of 800 W. (a) Calculate the E field amplitude of the wave at a point 3.5 m from the source. (b) Calculate the force that the wave exerts on a flat surface of unit area at that point if the wave is totally absorbed by the surface. On Friday, September 13, 1992, the lira was worth DM 0.015, Over the weekend the lira devalued against the DM to DM .012. By whit percent has the DM changed in value relative to the Lira? 20% 25% 25% 20 If this wave is traveling along the x-axis from left to rightwith a displacement amplitude of 0.1 m in the y direction, find thewave equation for y as a function of x and time t. The nurse is aware that the production of aldosterone is regulated by which of the following glands? (A) Thyroid gland B. Adrenal gland C. Pancreas D. Thymus gland The figure shows two kayakers pulling a raft. One kayaker pulls with force vector F sub 1 equals open angled bracket 190 comma 160 close angled bracket comma and the other kayaker pulls with force vector F sub 2 equals open angled bracket 128 comma negative 121 close angled bracket periodtwo vectors F sub 1 and F sub 2 that share an initial point located on a raft, F sub 1 points right and up where its terminal point is at a kayak, F sub 2 points left and down where its terminal point is at another kayakWhat is the angle between the kayakers? Round your answer to the nearest degree. (2 points)78838680 What is the future value of the following deposits made at the end of each year if you can earn 7.8\% APR compounded quarterly. A 3500 lbs car rests on a hill inclined at 6 from the horizontal. Find the magnitudeof the force required (ignoring friction) to prevent the car from rolling down the hill. (Roundyour answer to 2 decimal places) What were some of the reasons settlers chose to live in the West? Read the scenario below and assist with the questions that follows.Mrs X walks into the office of Bank Y. She requests to see someone to assist her with investing of a lump sum she received after her husbands death. She is taken to Mr Z to assist. Mr Z politely greets Mrs X and asks her what he can help her with. Mrs X explains that her husband recently died due to an accident at work. She continues to explain that her husband used to make all financial decisions and worked with their finances. She did not know what to do as she never had to manage the opening of accounts or make any financial choices. During her explanation she starts to cry, and Mr Z compassionately consoles her and assures her he will do his best to assist her. He continues to ask her relevant questions to ascertain what her needs are, and which products would suit her best. He then tells her he will investigate which products would be ideal for her and promises to get back to her with answers on the next day. That evening Mr Z has a social braai with friends and discusses Mrs Xs case. He reveals how much money she received upon her husbands death after the accident at his work. They find it interesting how much money the company paid out. The next day Mr Z continues his background work and as promised he contacts Mrs X after lunch with some feedback. He schedules a meeting with her for the next day to present his solutions. Mr Z proposes packages to Mrs X that has the higher commission for himself first, identifying them as her best options. He also goes through the packages which would suit her best, but handles them in a fast manner explaining that they probably would not suit her as well as the first options. His bank requires him to go through all solutions which would suit the customers needs and therefore he did go through these, although in a fast manner. Mrs X felt Mr Z was trustworthy as he handled her so well the first day when she cried and kept to his word to contact her the next day. She signed for the offers he made first as he indicated they were the best for her.1. Use five of the most relevant Pillars of Character to determine if Mr Zs behaviour was ethical or not. Motivate your answer with information from the scenario.2. Discuss the ethical views and issues that were revealed by the Hall survey of hospitality managers. Use the properties of logarithms to simplify and solve each equation. Round to the nearest thousandth.3 ln x-ln 2=4 Your employer is looking to develop a new patient complaintsprocedure and asks you to draft the policy.Which GDC Principle would you refer to? What are the keystandards to consider when drafting" Steam Workshop Downloader