a) Explain the following terms in brief: i) Infiltration capacity ii) Infiltration rate iii) Infiltration b-index b) During a storm the rate of rainfall observed at a frequency of 15min for one hour are 12.5, 17.5, 22.5, and 7.5cm/h. if the Phi-index is 7.5cm/h calculate the total run-off. c) The observed annual runoff from the basin of an area 500Km? Is 150Mm" and the corresponding annual rainfall over the basin during the same year is 750mm. what is the runoff coefficient?

Answers

Answer 1

i) Infiltration capacity: Infiltration capacity refers to the maximum rate at which water can penetrate or infiltrate into the soil surface.

ii) Infiltration rate: Infiltration rate represents the actual rate at which water is infiltrating into the soil. It is the speed or velocity at which water is penetrating the soil surface

iii) Infiltration b-index: The infiltration b-index is a parameter used to estimate the soil moisture retention characteristics and infiltration rate of a soil.

b) To calculate the total runoff, we need to determine the excess rainfall for each time interval and sum them up.

Excess rainfall = Rainfall rate - Phi-index

For the four intervals:

Excess rainfall1 = 12.5 cm/h - 7.5 cm/h = 5 cm/h

Excess rainfall2 = 17.5 cm/h - 7.5 cm/h = 10 cm/h

Excess rainfall3 = 22.5 cm/h - 7.5 cm/h = 15 cm/h

Excess rainfall4 = 7.5 cm/h - 7.5 cm/h = 0 cm/h

Now, we can calculate the total runoff by summing up the excess rainfall for all intervals:

= 5 cm/h + 10 cm/h + 15 cm/h + 0 cm/h

= 30 cm/h

c) The runoff coefficient can be calculated by dividing the observed annual runoff by the corresponding annual rainfall.

Converting the units to the same length scale:

Annual runoff = 150 Mm³ = 150,000,000,000 m³

Annual rainfall = 750 mm = 0.75 m

Runoff coefficient = 150,000,000,000 m³ / 0.75 m

= 200,000,000,000

Infiltration refers to the process by which water enters and permeates into the soil or porous surfaces. It occurs when precipitation, such as rain or snow, falls onto the ground and is absorbed into the soil or surface materials. Infiltration plays a crucial role in the water cycle and is a key process in hydrology.

The rate of infiltration is influenced by various factors, including soil type, vegetation cover, slope gradient, and the initial moisture content of the soil. Soils with high permeability, such as sandy soils, typically have a higher infiltration rate compared to soils with low permeability, such as clay soils. Infiltration is important for replenishing groundwater reserves, as it allows water to percolate downward and recharge aquifers. It also helps to reduce surface runoff, erosion, and flooding by absorbing and storing water within the soil profile.

To learn more about Infiltration visit here:

brainly.com/question/30639661

#SPJ11


Related Questions

17. In experiment 10, a group of students found that the
moment of inertia of the plate+disk was 1.74x10-4 kg m2, on the
other hand they found that the moment of inertia of the plate was
0.34x10-4 kg

Answers

The main answer is that the moment of inertia of the disk in this configuration can be calculated by subtracting the moment of inertia of the plate from the total moment of inertia of the plate+disk.

To understand this, we need to consider the concept of moment of inertia. Moment of inertia is a measure of an object's resistance to changes in its rotational motion and depends on its mass distribution. When a plate and disk are combined, their moments of inertia add up to give the total moment of inertia of the system.

By subtracting the moment of inertia of the plate (0.34x10-4 kg m2) from the total moment of inertia of the plate+disk (1.74x10-4 kg m2), we can isolate the moment of inertia contributed by the disk alone. This difference represents the disk's unique moment of inertia in this particular configuration.

The experiment demonstrates the ability to determine the contribution of individual components to the overall moment of inertia in a composite system. It highlights the importance of considering the distribution of mass when calculating rotational properties and provides valuable insights into the rotational behavior of objects.

To learn more about inertia click here

brainly.com/question/3268780

#SPJ11

Consider a series RLC circuit having the parameters R=200Ω L=663mH , and C=26.5µF. The applied voltage has an amplitude of 50.0V and a frequency of 60.0Hz. Find (d) the maximum voltage ΔVL across the inductor and its phase relative to the current.

Answers

The maximum voltage [tex]ΔVL[/tex]across the inductor is approximately 19.76V, and its phase relative to the current is 90 degrees.

To find the maximum voltage [tex]ΔVL[/tex]across the inductor and its phase relative to the current, we can use the formulas for the impedance of an RLC circuit.

First, we need to calculate the angular frequency ([tex]ω[/tex]) using the given frequency (f):

[tex]ω = 2πf = 2π * 60 Hz = 120π rad/s[/tex]

Next, we can calculate the inductive reactance (XL) and the capacitive reactance (XC) using the formulas:

[tex]XL = ωL = 120π * 663mH = 79.04Ω[/tex]
[tex]XC = 1 / (ωC) = 1 / (120π * 26.5µF) ≈ 0.1Ω[/tex]
Now, we can calculate the total impedance (Z) using the formulas:

[tex]Z = √(R^2 + (XL - XC)^2) ≈ 200Ω[/tex]

The maximum voltage across the inductor can be calculated using Ohm's Law:

[tex]ΔVL = I * XL[/tex]

We need to find the current (I) first. Since the applied voltage has an amplitude of 50.0V, the current amplitude can be calculated using Ohm's Law:

[tex]I = V / Z ≈ 50.0V / 200Ω = 0.25A[/tex]

Substituting the values, we get:

[tex]ΔVL = 0.25A * 79.04Ω ≈ 19.76V[/tex]

The phase difference between the voltage across the inductor and the current can be found by comparing the phase angles of XL and XC. Since XL > XC, the voltage across the inductor leads the current by 90 degrees.

To know more about inductor visit:

https://brainly.com/question/31503384

#SPJ11

Naturally occurring 40K is listed as responsible for 25 mrem/y of background radiation. Calculate the mass of 40K in grams that must be inside the 52 kg body of a woman to produce this dose. Each 40K decay emits a 1.32 MeV , and 48% of the energy is absorbed inside the body.
How many photons strike a patient being x-rayed, where an intensity of 1.30 W/m2 illuminates 0.0750 m2 of her body for 0.290 s? The energy of the x-ray photons is 100 keV.
photons

Answers

Given data Mass of 40K= x gm Density of the human body is taken as 1gm/cm^3Therefore, 52000 gm of human body contains 52000 cm^3 of human tissue. Assuming all 40K in the body is distributed uniformly, it means1 cm^3 of the body has [tex]1.8×10^-10 gm of 40K.[/tex]

52000 cm^3 of human tissue has

[tex]mass of 52000 × 1.8×10^-10 = 0.00936 gm of 40K.[/tex]

Hence, the amount of 40K needed to produce a background radiation dose of 25 mrem per year is 0.00936 gm of 40K.How many photons strike a patient being x-rayed, where an intensity of 1.30 W/m2 illuminates 0.0750 m2 of her body for 0.290 s? The energy of the x-ray photons is 100 ke V.

V Number of photons per second can be calculated as follows :Energy of a single photon

[tex], E = 100000 eV = 100000 × 1.6 × 10^-19[/tex]

J Speed of light, c = 3 × 10^8 m/s

Planck’s constant, [tex]h = 6.63 × 10^-34 JsE = hc/λ λ = hc/E= 6.63×10^-34 × 3×10^8/100000×1.6×10^-19= 3.94 × 10^-11 m[/tex]

The number of photons, n, is given by Intensity of radiation, I = Energy of radiation per unit time × number of photons per unit time

[tex]= E × n/t^2∴ n = I × t^2 / E= 1.30 × 0.0750 × 0.290^2 / (100 × 10^3 × 1.6 × 10^-19)= 0.0061 × 10^19≈ 6.1 × 10^16[/tex]

The number of photons striking the patient is 6.1 × 10^16.

To know more about Density visit:

https://brainly.com/question/29775886

#SPJ11

Using the rules of significant figures,
calculate the multiplication of A = 5.737
and B = 0.45:

Answers

The multiplication of A = 5.737 and B = 0.45 is approximately 2.58.

To calculate the multiplication of A = 5.737 and B = 0.45, we can multiply the two numbers together:

A * B = 5.737 * 0.45

Performing the multiplication gives us:

A * B = 2.58165

When dealing with significant figures, we need to consider the least number of significant figures in the original numbers being multiplied.

In this case, both A and B have three significant figures.

Therefore, the result of the multiplication, 2.58165, should be rounded to three significant figures:

A * B = 2.58

So, the multiplication of A = 5.737 and B = 0.45 is approximately 2.58.

Learn more about multiplication from this link:

https://brainly.com/question/1135170

#SPJ11

A parallel plate capacitor is formed from two 7.6 cm diameter electrodes spaced 1.6 mm apart The electric field strength inside the capacitor is 3.0 x 10 N/C Part A What is the magnitude of the charge

Answers

The magnitude of the charge on the plates of the parallel plate capacitor is 2.25 x 10^-10 C.

The magnitude of the charge on the plates of a parallel plate capacitor is given by the formula:Q = CVWhere;Q is the magnitude of the chargeC is the capacitance of the capacitorV is the potential difference between the platesSince the electric field strength inside the capacitor is given as 3.0 x 10^6 N/C, we can find the potential difference as follows:E = V/dTherefore;V = EdWhere;d is the separation distance between the platesSubstituting the given values;V = Ed = (3.0 x 10^6 N/C) x (1.6 x 10^-3 m) = 4.8 VThe capacitance of a parallel plate capacitor is given by the formula:C = ε0A/dWhere;C is the capacitance of the capacitorε0 is the permittivity of free spaceA is the area of the platesd is the separation distance between the platesSubstituting the given values;C = (8.85 x 10^-12 F/m)(π(7.6 x 10^-2 m/2)^2)/(1.6 x 10^-3 m) = 4.69 x 10^-11 FThus, the magnitude of the charge on the plates is given by;Q = CV= (4.69 x 10^-11 F) (4.8 V)= 2.25 x 10^-10 CTherefore, the magnitude of the charge on the plates of the parallel plate capacitor is 2.25 x 10^-10 C.

Learn more about electric field :

https://brainly.com/question/11482745

#SPJ11

In 1-2 sentences, explain why the emission spectra of elements show lines of different colors but only in narrow bands. (2 points) BIU EE In one to two sentences, explain why electromagnetic radiation can be modeled as both a wave and a particle. (2 points) BIU 18

Answers

The different colors observed in the emission spectra of elements, appearing as narrow bands, result from specific energy transitions between electron levels. Electromagnetic radiation can be described as both a wave and a particle due to its dual nature, known as wave-particle duality.

The emission spectra of elements show lines of different colors but only in narrow bands because each line corresponds to a specific energy transition between electron energy levels in the atom, resulting in the emission of photons of specific wavelengths. Electromagnetic radiation can be modeled as both a wave and a particle due to its dual nature known as wave-particle duality, where it exhibits properties of both waves (such as interference and diffraction) and particles (such as discrete energy packets called photons).

Read more about Emission Spectra here: https://brainly.com/question/12472637

#SPJ11

d) Identify true or false to the following statements
i) The time constant () of charge and discharge of the capacitor are equal ( ) ii) The charging and discharging voltage of the capacitor in a time are different ( ) iii) A capacitor stores electric charge ( ) iv) It is said that the current flows through the capacitor if it is fully charged ( )

Answers

i) False. The time constant of charge and discharge of a capacitor are generally not equal.

ii) True. The charging and discharging voltages of a capacitor in a given time can be different.

iii) True. A capacitor is an electronic component that stores and releases electric charge. It consists of two conductive plates separated by a dielectric material.

iv) False. Once a capacitor is fully charged, it blocks the flow of current in an ideal scenario. However, there may be some leakage current or other factors that cause a small amount of current to flow even when the capacitor is fully charged.

i) False. The time constant (τ) of charge and discharge of a capacitor are not equal. The time constant for charge (τc) is determined by the product of the resistance and capacitance, while the time constant for discharge (τd) is determined by the product of the resistance and capacitance. They are typically not equal unless the resistance values in the charging and discharging circuits are the same.

ii) True. The charging and discharging voltages of a capacitor in a given time interval can be different. During the charging process, the voltage across the capacitor increases, while during the discharging process, the voltage decreases. The magnitude of the voltages can depend on factors such as the initial voltage, the time interval, and the resistance in the circuit.

iii) True. A capacitor is an electronic component that stores electric charge. It consists of two conductive plates separated by an insulating material (dielectric), which allows the accumulation and storage of charge on the plates. When a voltage is applied across the capacitor, it charges and stores the electric charge.

iv) False. Once a capacitor is fully charged, it does not allow current to flow through it in an ideal scenario. In an ideal capacitor, current flow ceases once it reaches its maximum charge. However, in real-world scenarios, there may be leakage current or other factors that can cause a small amount of current to flow even when the capacitor is fully charged.

Read more on Capacitor here: https://brainly.com/question/30529897

#SPJ11

GP Q C Review. You can think of the work-kinetic energy theorem as a second theory of motion, parallel to Newton's laws in describing how outside influences affect the motion of an object. In this problem, solve parts (a), (b), and (c) separately from parts (d) and (e) so you can compare the predictions of the two theories. A 15.0-g bullet is accelerated from rest to a speed of 780m/s in a rifle barrel of length 72.0cm. (c) Use your result to part (b) to find the magnitude of the aver-age net force that acted on the bullet. while it was in the barrel.

Answers

The magnitude of the average net force that acted on the bullet while it was in the barrel is approximately 3637 N. The work-kinetic energy theorem provides a useful framework for analyzing the relationship between work, energy, and forces acting on objects during motion .

To find the magnitude of the average net force that acted on the bullet while it was in the barrel, we can use the work-kinetic energy theorem. This theorem states that the net work done on an object is equal to the change in its kinetic energy.

In part (b), we found that the kinetic energy of the bullet is 453.375 J. The work done on the bullet is equal to the change in its kinetic energy:

Work = ΔKE

The work done can be calculated using the formula for work: Work = Force × Distance. In this case, the distance is given as 0.72 m (the length of the barrel), and the force is the average net force we want to find.

Therefore, we have:

Force × Distance = ΔKE

Force = ΔKE / Distance

Substituting the values, we get:

Force = 453.375 J / 0.72 m

Force ≈ 629.375 N

However, it's important to note that the force calculated above is the average force exerted on the bullet during its acceleration in the barrel. The force might vary during the process due to factors such as friction and pressure variations.

The magnitude of the average net force that acted on the bullet while it was in the barrel is approximately 3637 N. This value is obtained by dividing the change in kinetic energy of the bullet by the distance it traveled inside the barrel. It's important to consider that this value represents the average force exerted on the bullet during its acceleration and that the force may not be constant throughout the process.

The work-kinetic energy theorem provides a useful framework for analyzing the relationship between work, energy, and forces acting on objects during motion. By comparing the predictions of the work-kinetic energy theorem with Newton's laws, we can gain a deeper understanding of the factors influencing the motion of objects and the transfer of energy.

To know more about force ,visit:

https://brainly.com/question/12785175

#SPJ11

Given that D = 5 [ln(4 x + 3 t)]2 is a left-moving
solution to the wave equation (this is a square of the natural
logarithm), what is the propagation speed of this wave?
Assume everything is in SI uni

Answers

We cannot determine a single propagation speed for this wave.

To determine the propagation speed of the wave, we need to compare the given solution to the wave equation with the general form of a left-moving wave solution.

The general form of a left-moving wave solution is of the form:

D(x, t) = f(x - vt)

Here,

D(x, t) represents the wave function, f(x - vt) is the shape of the wave, x is the spatial variable, t is the time variable, and v is the propagation speed of the wave.

Comparing this general form to the given solution, we can see that the argument of the natural logarithm, 4x + 3t, is equivalent to (x - vt). Therefore, we can equate the corresponding terms:

4x + 3t = x - vt

To determine the propagation speed, we need to solve this equation for v.

Let's rearrange the terms:

4x + 3t = x - vt

4x - x = -vt - 3t

3x = -4t - vt

3x + vt = -4t

v(t) = -4t / (3x + v)

The propagation speed v depends on both time t and spatial variable x.

The equation shows that the propagation speed is not constant but varies with the values of t and x.

Therefore, we cannot determine a single propagation speed for this wave.

Learn more about propagation speed from this link:

https://brainly.com/question/31414919

#SPJ11

1. An object 4.5cm high is placed 50cm in front of a convex mirror with a radius of curvature of 20cm. What is the height of the image? Describe the image.
2.An object is placed 12cm from a converging lens and the image appears at 24cm on the opposite side of the lens. (a) is this a real or virtual image? (b) What is the focal length of the lens? (c) How many times is the image magnified? Describe the image.

Answers

The image is real. The focal length of the lens is 8 cm. Image magnification (m) is 2.The image is inverted and real.

An object 4.5 cm high is placed 50 cm in front of a convex mirror with a radius of curvature of 20 cm. What is the height of the image Describe the image.Image height

= -2.25 cm The image is inverted, diminished and real.2. An object is placed 12 cm from a converging lens and the image appears at 24 cm on the opposite side of the lens. Is this a real or virtual image, What is the focal length of the lens .How many times is the image magnified Describe the image.The image is real. The focal length of the lens is 8 cm. Image magnification (m) is 2.The image is inverted and real.

To know more about focal length visit:

https://brainly.com/question/2194024

#SPJ11

A steel wire of length 29.0 m and a copper wire of length 21.0 m, both with 1.00-mm diameters, are connected end to end and stretched to a tension of 168 N. During what time interval will a transverse wave travel the entire length of the two wires? (The density of steel and copper are 7860 and 8920 kg/m?, respectively.)

Answers

The tension in the wire is approximately 9.3289 * 1  Newtons (N).

Let's calculate the tension in the wire step by step.

Step 1: Convert the density of copper to g/m³.

Density of copper = 8.92 g/cm³ = 8.92 * 1000 kg/m³ = 8920 kg/m³

Step 2: Calculate the cross-sectional area of the wire.

Given diameter = 1.70 mm = 1.70 * 1 m

Radius (r) = 0.85 * 1 m

Cross-sectional area (A) = π * r²

A =  π *

Step 3: Calculate the tension (T) using the wave speed equation.

Wave speed (v) = 195 m/s

T = μ * v² / A

T = (8920 kg/m³)  *   / A

Now, substitute the value of A into the equation and calculate T

A = π *

A = 2.2684 * 1 m²

T = (8920 kg/m³) *  / (2.2684 * 1 m²)

T = 9.3289 * 1  N

Therefore, the tension in the wire is approximately 9.3289 * 1 Newtons (N).

To know more about tension here

brainly.com/question/32457240

#SPJ4

choose corect one
13. The photoelectric effect is (a) due to the quantum property of light (b) due to the classical theory of light (c) independent of reflecting material (d) due to protons. 14. In quantum theory (a) t

Answers

The correct answer for the photoelectric effect is (a) due to the quantum property of light.

The photoelectric effect refers to the phenomenon where electrons are emitted from a material when it is exposed to light or electromagnetic radiation. It was first explained by Albert Einstein in 1905, for which he received the Nobel Prize in Physics

According to the quantum theory of light, light is composed of discrete packets of energy called photons. When photons of sufficient energy interact with a material, they can transfer their energy to the electrons in the material. If the energy of the photons is above a certain threshold, called the work function of the material, the electrons can be completely ejected from the material, resulting in the photoelectric effect.

The classical theory of light, on the other hand, which treats light as a wave, cannot fully explain the observed characteristics of the photoelectric effect. It cannot account for the fact that the emission of electrons depends on the intensity of the light, as well as the frequency of the photons.

The photoelectric effect is also dependent on the properties of the material being illuminated. Different materials have different work functions, which determine the minimum energy required for electron emission. Therefore, the photoelectric effect is not independent of the reflecting material.

So, option A is the correct answer.

To know more about photoelectric effect click on below link :

https://brainly.com/question/9260704#

#SPJ11

Light of wavelength λ 0 ​ is the smallest wavelength maximally reflected off a thin film of thickness d 0 ​ . The thin film thickness is slightly increased to d f ​ >d 0 ​ . With the new thickness, λ f ​ is the smallest wavelength maximally reflected off the thin film. Select the correct statement. The relative size of the two wavelengths cannot be determined. λ f ​ <λ 0 ​ λ f ​ =λ 0 ​ λ f ​ >λ 0 ​ ​

Answers

The correct statement is that λf < λ0. When the thickness of the thin film is increased from d0 to df, the smallest wavelength maximally reflected off the film, represented by λf, will be smaller than the initial smallest wavelength λ0.

This phenomenon is known as the thin film interference and is governed by the principles of constructive and destructive interference.

Thin film interference occurs when light waves reflect from the top and bottom surfaces of a thin film. The reflected waves interfere with each other, resulting in constructive or destructive interference depending on the path difference between the waves.

For a thin film of thickness d0, the smallest wavelength maximally reflected, λ0, corresponds to constructive interference. This means that the path difference between the waves reflected from the top and bottom surfaces is an integer multiple of the wavelength λ0.

When the thickness of the thin film is increased to df > d0, the path difference between the reflected waves also increases. To maintain constructive interference, the wavelength λf must decrease in order to compensate for the increased path difference.

Therefore, λf < λ0, indicating that the smallest wavelength maximally reflected off the thin film is smaller with the increased thickness. This is the correct statement.

Learn more about wavelength here: brainly.com/question/32101149

#SPJ11

A 1.4-kgkg block of ice is initially at a temperature of -2.0 ∘C∘C. A) If 2.3×105 JJ of heat are added to the ice, what is the final temperature of the system? B) Find the amount of ice, if any, that remains
Express your answer using one significant figure.

Answers

A 1.4 kg block of ice initially at -2.0 °C is subjected to the addition of 2.3 × 10^5 J of heat.


To find the final temperature of the system, we can use the formula for the heat absorbed or released during a phase change:

Q = m * L,

where Q is the heat energy, m is the mass of the substance, and L is the specific latent heat of the substance.

For the ice to reach its melting point and undergo a phase change to water, the heat added must be equal to the heat of fusion. The specific latent heat of fusion for ice is approximately 334,000 J/kg.

a) Using the formula Q = m * L, we can solve for the mass of the ice:

m = Q / L = 2.3 × 10^5 J / 334,000 J/kg ≈ 0.689 kg.

Since the heat added causes the ice to melt, the final temperature of the system will be at 0 °C.

b) The remaining amount of ice can be calculated by subtracting the mass of the melted ice from the initial mass:

Remaining mass of ice = Initial mass - Melted mass = 1.4 kg - 0.689 kg ≈ 0.7 kg.

Therefore, approximately 0.7 kg of ice remains after the addition of 2.3 × 10^5 J of heat.

Learn more about latent heat here:
https://brainly.com/question/23976436

#SPJ11

A light ray initially in water (n=1.33) enters a transparent substance at an angle of incidence of 42.0 ∘ , and the transmitted ray is refracted at an angle of 27.5 ∘
. Find the refractive index of the substance.

Answers

The refractive index of a transparent substance when a light ray initially in water (n=1.33) enters it at an angle of incidence of  [tex]42.0^{0}[/tex] and the transmitted ray is refracted at an angle of [tex]27.5.0^{0}[/tex] can be calculated using Snell's law.

The formula is as follows:

[tex]n_1 sin θ1 = n_2 sin θ_2[/tex]

where n1 is the refractive index of the incident medium, θ_1 is the angle of incidence, n_2 is the refractive index of the refracted medium, and θ_2 is the angle of refraction.

From the given problem,

[tex]n_1 = 1.33, θ_1 = 42.0^{∘}, and θ_2 = 27.5 ^{∘}.[/tex]

Let's substitute the given values into the equation to find n2:

[tex]n1 sin θ_1 = n_2 sin θ_2\\⇒ n_2 = (n_1 sin θ_1) / sin θ_2\\= (1.33 × sin 42.0^{∘}) / sin 27.5^{∘}≈ 2.22[/tex]

Therefore, the refractive index of the transparent substance is approximately 2.22.

In this question, you only need to give a numerical answer without any unit because the refractive index is a unitless quantity.

Hence, the answer is:n2 ≈ 2.22.

Learn more about substance from the given link:

https://brainly.com/question/29108029

#SPJ11

The colors of a soap bubble or of an oil film on water are produced by: (a)selective absorption and reflection,
(b) diffraction, (c) interference,
(d) refraction, (e) pollution.
(Choose one

Answers

The colors of a soap bubble or an oil film on water are produced by interference.

The colors seen in soap bubbles or oil films on water are a result of interference. When light interacts with these thin films, it undergoes both reflection and transmission.

As the light waves reflect off the front and back surfaces of the film, they interfere with each other. This interference causes certain wavelengths of light to reinforce or cancel each other out, resulting in the observed colors.

Interference occurs due to the phase difference between the light waves that are reflected from different surfaces of the film. When the reflected waves meet, they can either be in phase (constructive interference) or out of phase (destructive interference).

Constructive interference enhances certain wavelengths of light, resulting in vibrant colors, while destructive interference suppresses certain wavelengths, causing the absence of colors.

The thickness of the soap bubble or oil film determines the specific wavelengths that are reinforced or canceled out through interference. This is why soap bubbles or oil films display a range of iridescent colors as they vary in thickness.

The interplay of interference and the properties of the film material give rise to the beautiful, shimmering colors that we observe.

Learn more about interference here ;

https://brainly.com/question/31228426

#SPJ11

A spaceship is at a distance R1 = 10^12 m from a planet with mass M1. This spaceship is a a distance R2 from another planet with mass M2 = 25 × M1. The spaceship is between these two planets such that the magnitude of the gravitational force due to planet 1 is exactly the same as the magnitude of the gravitational force due to planet 2. What is the distance between the two planets?

Answers

To find the distance between the two planets, we can set up an equation using the gravitational force formula and the given information. By equating the magnitudes of the gravitational forces exerted by each planet on the spaceship, we can solve for the distance between the two planets.

The gravitational force between two objects can be calculated using the equation F = G * (m1 * m2) / r^2, where F is the gravitational force, G is the gravitational constant, m1 and m2 are the masses of the two objects, and r is the distance between them.

In this scenario, we have two planets with masses M1 and M2, and a spaceship located between them. The gravitational forces exerted by each planet on the spaceship are equal in magnitude.

Setting up the equation for the gravitational forces, we have:

G * (M1 * m) / R1^2 = G * (M2 * m) / R2^2

Simplifying the equation and substituting the given values, we can solve for the distance R2 between the two planets.

To learn more about Gravitational force - brainly.com/question/32609171

#SPJ11

An object of height 2.0 cm is 60 cm to the left of a converging lens with focal length 40 cm, which is itself located 160 cm to the left of a diverging lens with focal length –40 cm. Find the position and height of the resulting image. Use ray-tracing to sketch the setup and find geometrical relationships between the quantities of interest.

Answers

In this case, we are given an object of height 2 cm, which is located at a distance of 60 cm to the left of a converging lens having a focal length of 40 cm. The converging lens is situated at a distance of 160 cm from a diverging lens having a focal length of -40 cm.

The following are the steps to follow to find the position and height of the resulting image and then use ray-tracing to sketch the setup and find geometrical relationships between the quantities of interest:

Firstly, let's use the lens formula to find the distance of the image from the converging lens.

For converging lens, the formula is given by 1/f = 1/v - 1/u

where f is the focal length of the lens,v is the distance of the image from the lens and u is the distance of the object from the lens

1/40 = 1/v - 1/60v

= 120 cm

This tells us that the image will be formed 120 cm to the right of the converging lens.

Next, we need to find the distance between the diverging lens and the image. This is simply the distance between the diverging lens and the converging lens minus the distance between the object and the converging lens, i.e. 160 - 60 = 100 cm. This is where the image will be situated with respect to the diverging lens.Now, we can use the lens formula again to find the final position of the image, this time for the diverging lens.

For diverging lens, the formula is given by

1/f = 1/v - 1/u

where f is the focal length of the lens,v is the distance of the image from the lens and u is the distance of the object from the lens

1/-40 = 1/v - 1/100v

= -66.7 cm

This gives us the final position of the image, which is 66.7 cm to the left of the diverging lens.To find the height of the image, we can use the formula

h'/h = -v/u

where h is the height of the object,h' is the height of the image,v is the distance of the image from the lens andu is the distance of the object from the lens

h'/2 = -(-66.7)/100h'

= 1.33 cm

Therefore, the final image will be inverted and will be situated 66.7 cm to the left of the diverging lens and will have a height of 1.33 cm. To sketch the setup, we can draw a ray diagram as follows: ray tracing imageFor the converging lens, we draw the parallel ray from the object passing through the focal point on the opposite side of the lens, which is then refracted to pass through the focal point on the same side of the lens. We then draw another ray passing through the center of the lens, which passes through undeviated. The intersection of these two rays gives us the position of the image formed by the converging lens.For the diverging lens, we draw a ray from the tip of the image parallel to the principal axis, which is refracted to pass through the focal point on the same side of the lens. We then draw another ray passing through the center of the lens, which passes through undeviated. The intersection of these two rays gives us the final position of the image formed by the combination of the two lenses.

To know more about focal length visit:

https://brainly.com/question/2194024

#SPJ11

The best range must be used to measure a 1.2 V battery is A. 2V B. 20V C 200V D 200 mV

Answers

To measure a 1.2 V battery, the best range to use would be the 2V range. This range provides an appropriate scale for accurately measuring the voltage of the battery without overloading the instrument or losing precision.

When selecting the range for measuring a voltage, it is important to choose a range that is closest to the expected voltage value while still allowing some headroom for fluctuations and accuracy.

Using a range that is too high may result in a less precise measurement, while using a range that is too low may cause the instrument to overload and potentially damage the circuit.

In this case, since the battery voltage is 1.2 V, the 2V range is the most suitable option. It provides a range that is higher than the battery voltage, allowing for accurate measurement while maintaining precision.

Choosing a higher range, such as 20V or 200V, would result in a less precise reading due to the instrument's lower resolution and potential for increased noise.

The 200 mV range, on the other hand, is too low for measuring a 1.2 V battery, as it would likely result in an overload condition and potentially damage the measurement instrument.

Learn more about battery measuring from the given link:

https://brainly.com/question/31440050

#SPJ11

A book is thrown upward from a height of 10.0 m and lands with a velocity of -17.50 m/s. What was its initial velocity 110 m/s 178 m/s 10.5 m/s 13.3 m/s

Answers

The initial velocity of the book when it was thrown upward was approximately 10.5 m/s.

To find the initial velocity of the book when it was thrown upward, we can use the equations of motion for free-falling objects.

Given:

Initial height, h = 10.0 m

Final velocity, vf = -17.50 m/s (negative sign indicates downward direction).We can use the following equation to relate the initial velocity (vi), final velocity (vf), and height (h) of the object:

vf^2 = vi^2 + 2gh

where g is the acceleration due to gravity (approximately 9.8 m/s^2).

Substituting the given values into the equation, we have:

(-17.50 m/s)^2 = vi^2 + 2(9.8 m/s^2)(10.0 m)

306.25 m^2/s^2 = vi^2 + 196 m^2/s^2

Rearranging the equation, we find:

vi^2 = 306.25 m^2/s^2 - 196 m^2/s^2

vi^2 = 110.25 m^2/s^2

Taking the square root of both sides, we get:

vi = √(110.25 m^2/s^2)

vi ≈ 10.5 m/s

To learn more about initial velocity, click here:

https://brainly.com/question/28395671

#SPJ11

The separation between the two slits is 0.020μm,1μm=10−6 m, and the first-order minimum (equivalent to dark fringe formed by light) is formed at an angle of 8.63∘ relative to the incident electron beam. Part A - Find the wavelength of the moving electrons The unit is nm,1 nm=10−9 m. Keep 2 digits after the decimal point. Part B - Find the momentum of each moving electron. Use scientific notations, format 1.234⋆10n.

Answers

In the given double-slit experiment with electrons, the separation between the two slits is 0.020 μm.

The first-order minimum (dark fringe) is observed at an angle of 8.63 degrees relative to the incident electron beam. The task is to determine the wavelength of the moving electrons (Part A) and the momentum of each moving electron (Part B).

Part A: To find the wavelength of the moving electrons, we can use the formula for the wavelength of a particle diffracted by a double slit, given by λ = (d * sinθ) / n, where λ is the wavelength, d is the separation between the slits, θ is the angle of the first-order minimum, and n is the order of the minimum (which is 1 in this case). By substituting the given values, we can calculate the wavelength of the moving electrons.

Part B: The momentum of each moving electron can be determined using the de Broglie wavelength equation, which states that the momentum of a particle is equal to h / λ, where h is Planck's constant. By substituting the calculated wavelength from Part A into the equation, we can find the momentum of each moving electron in scientific notation format.

Learn more about slits here: brainly.com/question/31522866

#SPJ11

20 of 37 > As you zip through space in your PPS (personal propulsion suit), your pulse rate as you count it is 121 bpm (beats per minute). This high pulse rate serves as objective evidence of your excitement. However, an observer on the Moon, an expert in pulse rate telemetry, measures your pulse rate as slower. In fact, she detects only 0.575 times the rate you count and claims that you must be pretty calm in spite of everything that is going on. How fast are you moving with respect to the Moon? m/s speed relative to the Moon:

Answers

The observer on the Moon measures the pulse rate as 0.575 times the rate the person counts. Here we will determine the speed of the person relative to the Moon.

Let's assume the speed of the person relative to the Moon is v m/s.

According to the observer on the Moon, the measured pulse rate is 0.575 times the rate the person counts:

0.575 * 121 bpm = (0.575 * 121) beats per minute.

Since the beats per minute are directly proportional to the speed, we can set up the following equation:(0.575 * 121) beats per minute = (v m/s) meters per second.

To convert beats per minute to beats per second, we divide by 60:

(0.575 * 121) / 60 beats per second = v m/s.

Simplifying the equation, we have:

(0.575 * 121) / 60 = v.

Evaluating the expression on the left side, we find:

(0.575 * 121) / 60 ≈ 1.16417 m/s.

Therefore, the person's speed relative to the Moon is approximately 1.16417 m/s.

To learn more about pulse rate click here.

brainly.com/question/31594308

#SPJ11

When resistors 1 and 2 are connected in series, the equivalent resistance is 17.9 . When they are connected in parallel, the
equivalent resistance is 3.03 M. What are (a) the smaller resistance and (b) the larger resistance of these two resistors?

Answers

The smaller resistance between resistors 1 and 2 is approximately 3.5 ohms, while the larger resistance is approximately 14.4 ohms.

When resistors are connected in series, the sum of their individual resistances produces the desired resistance. The corresponding resistance in this situation is 17.9 ohms. The bigger resistance is equal to the sum of the smaller resistance and the value of resistor 2 since the resistors are connected in series. The lesser resistance is discovered by rearranging the equation to be roughly 3.5 ohms.

The reciprocal of the equivalent resistance is obtained by adding the reciprocals of the resistors when they are connected in parallel. The reciprocal of the corresponding resistance in this situation is roughly 0.33 microsiemens. The reciprocal of the bigger resistance is equal to the sum of the reciprocals of the smaller resistance and the value of resistor 2 since the resistors are connected in parallel. Rearranging the equation reveals that the bigger resistance's reciprocal is roughly 0.27 microsiemens, giving us a larger resistance of about 14.4 ohms.

To know more about resistance here https://brainly.com/question/28135236

#SPJ4

Part A How fast, in rpm, would a 4.6 kg, 19-cm-diameter bowling ball have to spin to have an angular momentum of 0.16 kgm²/s? Express your answer in revolutions per minute to two significant figures. ▸ View Available Hint(s) 195| ΑΣΦ www ? 1.009 rpm You have already submitted this answer. Enter a new answer. No credit lost. Try again. Submit Previous Answers

Answers

The bowling ball would have to spin at approximately 9.63 rpm to have an angular momentum of 0.16 kgm²/s. To find the angular velocity of the bowling ball in rpm (revolutions per minute), we can use the formula:

Angular momentum (L) = moment of inertia (I) * angular velocity (ω)

The moment of inertia (I) of a solid sphere is given by:

I = (2/5) * m * r^2

m = mass of the bowling ball = 4.6 kg

r = radius of the bowling ball = (19 cm) / 2 = 0.095 m (converting diameter to radius)

0.16 kgm²/s = (2/5) * 4.6 kg * (0.095 m)^2 * ω

ω = (0.16 kgm²/s) / [(2/5) * 4.6 kg * (0.095 m)^2]

ω ≈ 1.009 rad/s

To convert this angular velocity from radians per second to revolutions per minute, we can use the conversion factor:

1 revolution = 2π radians

1 minute = 60 seconds

So, the angular velocity in rpm is:

ω_rpm = (1.009 rad/s) * (1 revolution / 2π rad) * (60 s / 1 minute)

ω_rpm ≈ 9.63 rpm

Therefore, the bowling ball would have to spin at approximately 9.63 rpm to have an angular momentum of 0.16 kgm²/s.

Learn more about  angular velocity here : brainly.com/question/32217742
#SPJ11

A 110 kg man lying on a surface of negligible friction shoves a 155 g stone away from him, giving it a speed of 17.0 m/s. What speed does the man acquire as a result?

Answers

A 110 kg man lying on a surface of negligible friction shoves a 155 g stone away from him, giving it a speed of 17.0 m/s then the man's speed remains zero.

We have to determine the speed that the man acquires as a result when he shoves the 155 g stone away from him. Since there is no external force acting on the system, the momentum will be conserved. So, before the man shoves the stone, the momentum of the system will be:

m1v1 = (m1 + m2)v,

where v is the velocity of the man and m1 and m2 are the masses of the man and stone respectively. After shoving the stone, the system momentum becomes:(m1)(v1) = (m1 + m2)v where v is the final velocity of the system. Since momentum is conserved:m1v1 = (m1 + m2)v Hence, the speed that the man acquires as a result when he shoves the 155 g stone away from him is given by v = (m1v1) / (m1 + m2)= (110 kg)(0 m/s) / (110 kg + 0.155 kg)= 0 m/s

Therefore, the man's speed remains zero.

To learn more about friction visit

https://brainly.com/question/28356847

#SPJ11

The cyclic reversible process in the figure consists of: A. 2 isochoric \( (\mathrm{V}= \) constant) and 2 adiabatics \( (\mathrm{Q}=0) \) B. 2 isochoric \( (V= \) constant \( ) \) and 2 isothermals (

Answers

Based on the given options, the correct answer for the cyclic reversible process in the figure is option B 2 isochoric and 2 isothermal process.

The correct answer is B. 2 isochoric (V= constant) and 2 isothermals (T= constant) due to the following reasons:

An isochoric process is characterized by constant volume (V = constant), and an isothermal process is characterized by constant temperature (T = constant).

Therefore, in the cyclic reversible process shown in the figure, there are two parts where the volume remains constant (isochoric processes), and two parts where the temperature remains constant (isothermal processes).

Learn more about Isothermal Process here:

https://brainly.com/question/29209594

#SPJ11

The complete question is attached in the image.

Finnish saunas can reach temperatures as high as 130 - 140 degrees Celcius - which extreme sauna enthusiasts can tolerate in short bursts of 3 - 4 minutes. Calculate the heat required to convert a 0.8 kg block of ice, brought in from an outside temperature of -8 degrees Celcius, to steam at 104.0 degrees Celcius in the sauna. [The specific heat capacity of water vapour is 1.996 kJ/kg/K; see the lecture notes for the other specific heat capacities and specific latent heats].

Answers

To calculate heat required to convert a 0.8 kg block of ice to steam at 104.0 degrees Celsius in a sauna, we need to consider stages of phase change and specific heat capacities and specific latent heats involved.

First, we need to calculate the heat required to raise the temperature of the ice from -8 degrees Celsius to its melting point at 0 degrees Celsius. The specific heat capacity of ice is 2.09 kJ/kg/K. The equation for this heat transfer is:

Q1 = mass * specific heat capacity * temperature change

Q1 = 0.8 kg * 2.09 kJ/kg/K * (0 - (-8)) degrees Celsius.   Next, we calculate the heat required to melt the ice at 0 degrees Celsius. The specific latent heat of fusion for ice is 334 kJ/kg. The equation for this heat transfer is:

Q2 = mass * specific latent heat

Q2 = 0.8 kg * 334 kJ/kg

After the ice has melted, we need to calculate the heat required to raise the temperature of the water from 0 degrees Celsius to 100 degrees Celsius. The specific heat capacity of water is 4.18 kJ/kg/K. The equation for this heat transfer is:

Q3 = mass * specific heat capacity * temperature change

Q3 = 0.8 kg * 4.18 kJ/kg/K * (100 - 0) degrees Celsius

Finally, we calculate the heat required to convert the water at 100 degrees Celsius to steam at 104.0 degrees Celsius. The specific latent heat of vaporization for water is 2260 kJ/kg. The equation for this heat  transfer is:

Q4 = mass * specific latent heat

Q4 = 0.8 kg * 2260 kJ/kg  

The total heat required is the sum of Q1, Q2, Q3, and Q4:

Total heat = Q1 + Q2 + Q3 + Q4  

Calculating these values will give us the heat required to convert the ice block to steam in the sauna.

To learn more about specific latent heats click here : brainly.com/question/30460917

#SPJ11

A solid wooden sphere rotates in place about its central axis. The radius of the sphere is 0.65 m and its mass is 3300 kg.
A. What is the rotational inertia I of this sphere?
B. If the sphere has 13,000 J of rotational kinetic energy, what is the angular velocity ω of the sphere?

Answers

The rotational inertia (I) of the wooden sphere is determined using the formula I = (2/5) * m * [tex]r^2[/tex], where m is the mass of the sphere and r is its radius. The angular velocity (ω) of the sphere can be found using the formula ω = √(2K / I), where K is the rotational kinetic energy. By substituting the given values, the angular velocity of the sphere can be determined.

A. To find the rotational inertia (I) of the sphere, we can use the formula I = (2/5) * m * [tex]r^2[/tex], where m is the mass of the sphere and r is its radius. Substituting the given values, we have I = (2/5) * 3300 kg * [tex](0.65 m)^2[/tex]. Evaluating this expression   gives the value of I.

B. Given that the sphere has 13,000 J of rotational kinetic energy (K), we can use the formula K = (1/2) * I * [tex]ω^2[/tex] to find the angular velocity ω. Rearranging the formula, we have ω = √(2K / I). Plugging in the values of K and I calculated in part A, we can determine the angular velocity ω of the sphere.

To know more about rotational inertia refer to-

https://brainly.com/question/31369161

#SPJ11

(40 pts) The stiffness and damping properties of a mass-spring-damper system are to be determined by a free vibration test, the mass is given as m=4000 kg. In this test the mass is displaced 25 cm by a hydraulic jack and then suddenly released. At the end of 12 complete cycles, the time is 12 seconds and the amplitude is 5 cm. Determine the damping ratio.

Answers

The damping ratio of the mass-spring-damper system is approximately 0.048.

To determine the damping ratio of the mass-spring-damper system, we can utilize the given information from the free vibration test.

Firstly, we note that the mass of the system is m = 4000 kg. During the test, the mass is displaced 25 cm and released, resulting in oscillations. After 12 complete cycles, the time elapsed is 12 seconds and the amplitude has decreased to 5 cm.

Using the formula for the time period of a mass-spring system, T = 2π/ω, where ω represents the angular frequency, we can calculate the time period of one complete cycle as T = 12 s / 12 cycles = 1 s.

Next, we determine the natural frequency of the system, given by ω = 2πf, where f represents the frequency. Thus, ω = 2π / T = 2π rad/s.

Since the amplitude decreases over time due to damping, we can use the formula for damped harmonic motion, A = A₀e^(-ζωn t), where A₀ represents the initial amplitude, ζ is the damping ratio, ωn is the natural frequency, and t is the time elapsed.

We know that A = 5 cm, A₀ = 25 cm, ωn = 2π rad/s, and t = 12 s.

Plugging in the values, we obtain 5 = 25e^(-ζ2π12). Solving for ζ, we find ζ ≈ 0.048.

For more such questions on damping ratio

https://brainly.com/question/31965786

#SPJ8

In a particular region, the electric potential is given by V2 +9y, where and are constants. What is the electric field in this region

Answers

The electric field in this region is (2V/m)i - (9V/m)j and the magnitude of this electric field is[tex]|E| = sqrt(2^2 + 9^2) = sqrt(85)[/tex] V/m.

Given that the electric potential in a particular region is given by V = 2x + 9y, where 2x and 9y are constants, we are to find the electric field in this region. The electric field is the negative gradient of the electric potential.

Thus, we can find the electric field by taking the partial derivative of the electric potential with respect to x and y components as shown below.

[tex]∂V/∂x = -Ex = -dV/dx = -d/dx(2x + 9y) = -2V/m[/tex]

[tex]∂V/∂y = -Ey = -dV/dy = -d/dy(2x + 9y) = -9V/m[/tex]

Substituting the values, we get the electric field in this region to be

[tex]E = (2V/m)i - (9V/m)j.[/tex]

The electric field is given in the vector form. Its magnitude and direction can be found by using the formula for the magnitude of a vector which is given as

[tex]|E| = sqrt(E_x^2 + E_y^2) .[/tex]

To know more about electric field visit:

https://brainly.com/question/11482745

#SPJ11

Other Questions
A machine is purchased for $1000 and has a useful life of 12 years. At the end of 12 years, the salvage value is $130. By straight-line depreciation, what is the book value of the machine at the end of 8 years? $420 $290 $330 $580 CASE 2 A local supermarket had been charging $2.50 a pound for eggplant and selling 190 pounds a week. When it reduced the price to $2.00, eggplant sales rise to 200 pounds a week. A. Calculate the price elasticity of demand for eggplant. (7points) An energy of 0.17J is stored atop the metal sphere ofa Van de Graaff generator. A spark carrying 1.0 microcoulomb (10-6C) discharges the sphere. Find the sphere's potential relative tothe ground. 1. During the covid-19 pandemic, BestBuy specifically changed their selling model to buying online and eventually picking up their products via curb-side pick up. This is an example of: a) Selective distribution b) Intensive distribution c) Omni-channel retailing d) Multi-channel retailing A researcher is interested in determining whether wealth predicts happiness in college students. To find out, the researcher samples 402 students in order to conduct a regression analysis. Preliminary data analyses reveal the following: r=+2; Ssxy = 2, 55x = 10, ssy = 10. Assume that wealth and happiness were both measured on a self-report scale with possible values of 1-100 and the mean wealth value was 50 and the mean happiness value was 50. Describe the observed correlation in people words. a.There is a strong positive correlation such that wealthier people tend to be happier people b.There is a weak positive correlation such that wealthier people tend to be happier people c.There is no correlation d.There is a weak positive correlation such that wealthier people tend to be less happy people (4x^3 2x^23x+1)(x+3) A 45 cm long wire has a radias of 2 mm, the resistivity of the metal 65x10- mis connected with a volts battery. How much current will pass through the wire? Express your answer in Amperes ! f(x) = x^2 + x 6 Determine the x-intercepts and the y-intercept. And can you please explain how you got your answer 1. In 200 Words, Provide at least three ideas for distributing new school health policies to help with policy implementation.2. In 200 Words , Provide five examples of characteristics of effective health education curricula.3. In 200 Words, What lifestyle changes have adults made in recent decades that have improved outcomes with preventable conditions? Choose the best word or phrase from the drop-down boxes to complete each sentence. In 1957, President Dwight D. Eisenhower took control of the to allow African American students to attend high school. Th of 1957. It gave the Department of Justice the power to stop Alabama Americans to Under the Indian Terminatio reservations and relocate to urban areas, where they often f they would into American culture. Virginia Arkansas e C 8 Oll Submit C hp M O Z National Guard and ordered the troops senhower signed the Civil Rights Act made it difficult for African O in Indians were encouraged to leave ion. The federal government hoped Jun 22 1:49 1 US 21. In each of these problems, determine a suitable form for Y (t) if the method of undetermined coefficients is to be used. Do not evaluate the constants. a. y"" - 2y" + y' = t + 2e^t b. y''' - y' = te^-t + 2costc. y^4 - 2y'' + y = e^t + sin(t)d. y^4 + 4y" = sin 2t + te^t + 4 e. y^4 - y''' - y" + y' = t + 4 + tsin(t)f. y^4 + 2y''' + 2y" = 3e^t + 2te^-t + e^-t sin(t) write a balanced chemical equation for the decomposition of asprin A steel walkway (a=18.4 x 10^-6 mm/mmC) spans the rome walkway . The walkway spans a 170 foot 8.77 inch gap. If the walkway is meant for a temperature range of -32.4 C to 39.4 C how much space needs to be allowed for expansion? Report your answer in inches .. 1.17 A formula to estimate the volume rate of flow, Q, flowing over a dam of length, B, is given by the equation Q = 3.09BH 3/2 16 where H is the depth of the water above the top F of the dam (called the head). This formula gives Q in ft/s when B and H are in feet. Is the con- stant, 3.09, dimensionless? Would this equation be valid if units other than feet and seconds were used? assume highline company has just paid an annual dividend of $0.95. analysts are predicting 11.8% per year growth rate in earnings over the next 5 years. after then, earnings are expected to grow at 4.9% per year. if equity cost of capital is 9.3% per year and its dividend payout ratio remains constant, for what price does the dividend-discount model predict highline stock should sell?the value of stock is ? How does fiber reduce the risk of cardiovascular disease? Describe the physiological mechanisms. please answer all three questions1.What is a bartersystem? Whatare the problems of the barter system? Does the introduction of moneysolve the problem of the barter system, why or why not?21) What is adverse selection? Provide a real-life example related to the financial institution that can illustrate the existence of the problem and how to solve it. What is moral hazard? Provide a real-life example related to the financial institution that can illustrate the existence of the problem and how to solve it.3.If you take a home mortage in the 1960s, that is, before the great inflation in 1970s, will you be satisfied with this purchase, why or why not? Assume that Home is relatively abundant in labor and relatively scarce in land. The Heckscher-Ohlin model predicts that trade with other countries will cause increased returns to: neither both Home's labor nor land. Home's labor. both Home's labor and land. Home's land. Calculate the percentage of crystallinity of the followingpolymer. Density crystallinity is 0.998, density of the amorphousis 0.870 and density of the polymer is 0.925. All densities are ing/cm^3 Think and Solve 10. A 3.0 cm-tall candle light is located 60.0 em from a thin converging lens with a focal length of 20.0 cm. A. Sketch a ray diagram to locate the image. B. Calculate the image distance