12. A 2.5 x 10¹8 Hz x-ray photon strikes a metal foil and frees an electron. After the collision a lower energy 2.3 x 10¹8 Hz x-ray photon emerges. What is the speed of the electron? [P4]

Answers

Answer 1

The speed of the electron is 5.5 x 10⁶ m/s after the collision.

A photon with a frequency of 2.5 × 10¹⁸ Hz collides with a metal foil, freeing an electron. A lower-energy 2.3 × 10¹⁸ Hz X-ray photon emerges from the collision. We need to find out the electron's velocity after the collision.

hf = E, where h is Planck's constant and f is the frequency.

The energy of the photon can be calculated by multiplying the Planck's constant h by the frequency f.

[tex]E = h * fE_1 = (6.626 * 10^-^3^4 J.s) * (2.5 * 10^1^8 Hz)E_1 = 1.66 * 10^-^1^5 J[/tex].

The frequency of the emitted X-ray photon is calculated in the same way.

[tex]E = h * fE_2 = (6.626 * 10^-^3^4 J.s) * (2.3 * 10^1^8 Hz)E_2 = 1.53 * 10^-^1^5 J[/tex].

The electron's kinetic energy can be calculated by subtracting the energy of the emitted photon from the energy of the incident photon.

[tex]KE = E_1 - E_2[/tex]

[tex]KE = (1.66 * 10^-^1^5 J) - (1.53 * 10^-^1^5 J)[/tex]

[tex]KE = 0.13 * 10^-^1^5 J[/tex].

To find the electron's velocity, we'll first convert the kinetic energy to joules.

[tex]KE = (1/2)mv^2v = \sqrt{(2KE/m)}[/tex] where m is the mass of the electron, which is 9.11 × 10⁻³¹ kg.

[tex]v = \sqrt{ [(2 * 0.13 * 10^-^1^5 J)/9.11 * 10^-^3^1 kg]v}[/tex] [tex]= 5.5 * 10^6 m/s[/tex] (to two significant figures).

Therefore, the speed of the electron is 5.5 x 10⁶ m/s after the collision.

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Related Questions

the phenomeon called contraction is responsible for the great similarity in atomic size

Answers

The phenomenon called contraction is responsible for the great similarity in atomic size among adjacent members of transition element series.

The atomic size of elements decreases across a period from left to right because of the increase in the number of protons and electrons that are added to the atoms. As the positive charges in the nucleus increase, the negatively charged electrons are attracted more strongly, causing the electrons to be drawn closer to the nucleus, resulting in a decrease in atomic size.

The term "contraction" is used to describe this occurrence. There is a phenomenon known as the "lanthanide contraction" that occurs within the Lanthanide series. This phenomenon is described as a result of a decrease in atomic size in the series.

The 5f electrons in the actinide series are less efficient at shielding the increased nuclear charge, resulting in a greater contraction of the atomic size in the actinide series than in the lanthanide series. Therefore, the phenomenon of contraction in the transition element series is responsible for the great similarity in atomic size among adjacent members.

This is because the addition of an extra electron shell is equivalent to the addition of an extra proton, and the attraction of electrons to the nucleus causes atomic size to decrease. The magnitude of this contraction varies as we move from one transition element to the next, which is why there is only a small difference in size between adjacent members.

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If II2 and I3 represent the principal moments of inertia of a rigid body and w= (wi,w2,w3 is the angular velocity with components along the three principal axes (a) the z-component of the torque acting on the body in general is T3=I3w3 b) the z-component of the torque acting on the body in general is T3=I33+I2 I1)w1W2. c for torque free motion of the rigid body,always we have I3w3 = constant d for torque free motion of the rigid bodyin general we have I3w3=I-Iww2

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The given statements explain the relationships between the moments of inertia (I₃, I₂, I₁) and the angular velocity components (w₁, w₂, w₃) in terms of torque and torque-free motion of a rigid body.

a) The z-component of torque (T₃) acting on the body is given by the product of the moment of inertia about the z-axis (I₃) and the angular velocity component along the z-axis (w₃).

b) The z-component of torque (T₃) acting on the body is given by the difference between the moments of inertia about the z-axis (I₃₃) and the other two principal axes (I₂ and I₁), multiplied by the product of angular velocity components along the other two axes (w₁ and w₂).

c) For torque-free motion, there is no external torque acting on the body, so the product of the moment of inertia about the z-axis (I₃) and the angular velocity component along the z-axis (w₃) remains constant.

d) For torque-free motion in general, the z-component of the angular momentum (I₃w₃) remains constant. This equation relates the moment of inertia about the z-axis (I₃), the angular velocity component along the z-axis (w₃), and the product of the moments of inertia about the other two axes (I and I₁) multiplied by the product of angular velocity components along those axes (w₁ and w₂).

The given statements explain the relationships between the moments of inertia (I₃, I₂, I₁) and the angular velocity components (w₁, w₂, w₃) in terms of torque and torque-free motion of a rigid body.

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A very long straight wire carries a current I. At the instant when a charge
+
Q
at point
P
has velocity

V
, as shown, the force on the charge is

Answers

the force on the charge is  μ₀I[QV×r]/[4πr³].

The force on a charge of +Q at point P with velocity →V is given by:

B = μ₀I[QV×r]/[4πr³]

Where,μ₀ is the permeability of free space, μ₀ = 4π×10⁻⁷ Tm/ICurrent carried by the very long straight wire, ICharge, QVelocity vector, →VForce, B

Therefore, the force on the charge is given by:

B = μ₀I[QV×r]/[4πr³]

where r is the distance between the wire and the point P.

Hence, the answer is μ₀I[QV×r]/[4πr³].

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T/F: will density be higher or lower if there are air bubbles on an object

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If there are air bubbles on an object, then the density will be lower.

If there are air bubbles on an object, the density of the object will be lower. In general, density is defined as the amount of mass present in an object per unit volume of the object.

The volume of the object is fixed and the amount of mass present in it decides its density.In the case of an object containing air bubbles, the volume of the object remains the same, but the amount of mass present in it is less due to the air bubbles. This decrease in mass results in a lower density of the object.Therefore, the given statement that the density will be lower if there are air bubbles on an object is True.

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A 350-kg wooden raft floats on a lake. When a 70-kg man stands on the raft, it sinks 3.0 cm deeper into the water. When he steps off, the raft oscillates for a while. Part A What is the frequency of oscillation? Express your answer using two significant figures. Part B What is the total energy of oscillation (ignoring damping)? Express your answer using two significant figures.

Answers

The frequency of oscillation is 0.27 Hz & The total energy of oscillation of the raft (ignoring damping) is 0.000944 J.

Part A The frequency of oscillation of the raft can be calculated using the following formula,f = 1 / (2π) √(k / m)where,f is the frequency of oscillation of the raftk is the spring constant of the raftm is the mass of the raft + man (420 kg)

Rearranging the formula,we get:k = (2πf)²mOn the raft, the net upward force acting is equal to the weight of the displaced water. When the man stands on the raft, the weight of the raft + man is equal to the weight of the displaced water + weight of the man.Using the principle of floatation, we get:Weight of displaced water + Weight of man = Weight of the raft + man420g = (350 + w)g + 70g

Where,g is the acceleration due to gravity.w = 0.857 kgUsing this value of w, we can now calculate the spring constant of the raft,k = (2πf)²m= (2πf)²(420)= 882π²f²Hence,f = 0.27 Hz

Part B The total energy of oscillation of the raft can be calculated using the formula,E = 0.5 kA²where,E is the total energy of oscillation of the raftA is the amplitude of oscillation of the raftWhen the man stands on the raft, the raft sinks 3.0 cm deeper into the water. Hence, the amplitude of oscillation is 1.5 cm or 0.015 m.Substituting the values of k and A, we get,E = 0.5 kA²= 0.5 × 882π²f² × 0.015²= 0.000944 J Therefore, the total energy of oscillation of the raft (ignoring damping) is 0.000944 J.

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the vectors v1 = (1, −2, 3) and v2 = (0, 5, −3) are linearly independent. enlarge {v1 , v2 } to a basis for 3 .

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The only solution is a1 = a2 = a3 = 0. Hence, B = {v1, v2, u} is linearly independent, so B is a basis of R3.

Let [tex]S = {v1, v2}[/tex]. We want to enlarge S to a basis of R3. Since S is linearly independent, we can add one vector u to S to get a spanning set for R3.

Since S has two vectors, we need to find one more vector to get a basis of R3. That is, we need to find a vector u in R3 such that S ∪ {u} is linearly independent.

We can write the augmented matrix of S as[tex][v1 v2] =  [1 -2 3 0 5 -3].[/tex]

Using Gaussian elimination on this augmented matrix, we get

[R1,R2,R3] = [1 -2 3 0 5 -3]

=>[1 -2 3 0 5 -3]

=> [1 -2 3 0 5 -3]

=> [1 -2 3 0 5 -3].

Thus, R3 is a pivot row and we can let

u = (1, -2, 0).

Now, we claim that the set [tex]B = {v1, v2, u}[/tex] is a basis for R3.

Since |B| = 3 = dim(R3), it suffices to show that B is linearly independent.

 We will assume that a1v1 + a2v2 + a3u = 0 for some scalars a1, a2, a3 in R.

We need to show that a1 = a2 = a3 = 0.  Since a1v1 + a2v2 + a3u = 0, we get the following system of linear equations:

a1 + 0 + a3

= 0 -2a1 + 5a2 - 2a3

= 0 3a1 - 3a2 + 0a3

= 0.

Hence, [tex]B = {v1, v2, u}[/tex] is linearly independent, so B is a basis of R3.

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18. [-/1 Points] DETAILS If the half-life of nickel-63 is 92 years, approximately how much time will be required to reduce a 1 kg sample to about 1g? years Submit Answer O DELL Q Your best submission

Answers

The half-life of Nickel-63 is 92 years. The sample will take approximately 10 half-lives to decay to 1 g, which is equivalent to 920 years

Therefore, we can calculate the amount of time required to reduce a 1 kg sample to about 1g. Half-life of Nickel-63 is 92 years. Thus, the first half-life means half the sample has decayed, leaving half the original amount.

Similarly, the second half-life means half of the remaining half has decayed, leaving a quarter of the original sample. Hence, the fraction of the sample that remains after N half-lives is (1/2)^N, where N is the number of half-lives that have passed.

To find the time to reduce the sample to 1 g from 1 kg, we can apply the following formula for the number of half-lives needed:Mass remaining = initial mass x (1/2)^NHere, the mass remaining is 1 g, and the initial mass is 1 kg.

Hence, we have:1g = 1 kg x (1/2)^N1/1000 = 1/2^Nlog 1/1000 = N log 1/2N = log 1000/log 2N = 9.9658The sample will take approximately 10 half-lives to decay to 1 g, which is equivalent to 920 years.

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do the waves interfere constructively or destructively at an observation point 91.0 m from one source and 221 m from the other source?

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Destructive interference will not occur. When waves interfere constructively, they add up their amplitudes. On the other hand, when waves interfere destructively, they reduce their amplitudes. For two sources of waves to interfere constructively or destructively, they must meet certain conditions.

Constructive interference: When two waves meet each other and interfere constructively, the wave amplitudes add up together. Constructive interference occurs when two waves meet and their phases are in phase with each other, and they have the same frequency. The path difference between the two sources of waves must be an integer multiple of the wavelength. This means that the two waves will be in phase with each other.

For the given observation point, 91.0 m from one source and 221 m from the other source, the path difference can be calculated by taking the difference of the two distances. The distance between two sources is 221-91 = 130 m, which is the path difference. If the wavelength is known, the path difference can be expressed as a fraction of the wavelength. If the path difference is an integer multiple of the wavelength, constructive interference will occur.

Destructive interference: When two waves meet each other and interfere destructively, the wave amplitudes cancel each other out. The wave amplitudes must be in antiphase with each other for destructive interference to occur. This means that the wave from one source is in the opposite phase to the wave from the other source. To produce destructive interference, the path difference between the two sources must be half a wavelength, 1.5 wavelengths, 2.5 wavelengths, etc. For the given observation point, the path difference of 130 m is not half a wavelength, 1.5 wavelengths, 2.5 wavelengths, etc. Therefore, destructive interference will not occur.

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Two soccer players start from rest, 28 m apart. They run directly toward each other, both players accelerating. The first player's acceleration has a magnitude of 0.46 m/s². The second player's acceleration has a magnitude of 0.50 m/s². (a) How much time passes before the players collide? (b) At the instant they collide, how far has the first player run? (a) Number Units (b) Number Units
Previous question

Answers

(a) The time before the players collide is approximately 5.49 seconds.

(b) At the instant they collide, the first player has run approximately 37.94 meters.

(a) To find the time before the players collide, we can use the concept of relative motion. The players are running directly toward each other, so their velocities are subtracted. The relative velocity can be found by subtracting the second player's velocity from the first player's velocity.

Using the equation v = u + at, where v is the final velocity, u is the initial velocity, a is the acceleration, and t is the time, we can calculate the time it takes for the relative velocity to reach 28 meters (the initial separation between the players).

For the first player:

v₁ = u₁ + a₁t

0 = 0 + 0.46t

For the second player:

v₂ = u₂ + a₂t

0 = 0 + (-0.50)t

Solving both equations, we find t = 0 for the first player and t = 0 for the second player, indicating that they start from rest.

The time before the players collide is given by the equation:

t = (final separation) / (relative velocity)

t = 28 m / (0 - (-0.50) m/s²)

t ≈ 5.49 seconds

(b) To find the distance the first player has run at the instant of collision, we can use the equation s = ut + 0.5at², where s is the displacement, u is the initial velocity, t is the time, and a is the acceleration. Since the first player starts from rest, their initial velocity is 0.

Using the equation:

s = 0 × 5.49 + 0.5 × 0.46 × (5.49)²

s ≈ 37.94 meters

Therefore, at the instant they collide, the first player has run approximately 37.94 meters.

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Problem 5.45 Highway curves are marked with a suggested speed. 7 of 10 Review | Constants Part A If this speed is based on what would be safe in wet weather, estimate the radius curvature for a curve

Answers

The estimated radius of curvature for the curve on the highway is approximately 68.8 meters.

To estimate the radius of curvature for a curve on a highway, we can use the equation that relates the radius of curvature (R) to the suggested speed (v) and the coefficient of friction (μ) between the tires and the road surface.

The equation is:

R = (v²) / (g * μ)

Where:

R is the radius of curvature,

v is the suggested speed,

g is the acceleration due to gravity (approximately 9.8 m/s²), and

μ is the coefficient of friction.

Since the problem states that the suggested speed is based on what would be safe in wet weather, we can assume a lower coefficient of friction compared to dry conditions. For wet weather, a typical value for the coefficient of friction on a paved road is around 0.4.

Let's assume a suggested speed of 60 km/h (16.7 m/s) for this curve. Plugging the values into the equation, we can calculate the estimated radius of curvature:

R = (16.7 m/s)² / (9.8 m/s² * 0.4)

R ≈ 68.8 meters

Therefore, the estimated radius of curvature for the curve on the highway is approximately 68.8 meters.

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A crane lifts a steel submarine of density 7800 kg/m3 and mass 20,000 kg. What is the tension in the lifting cable (a) when the submarine is submerged in water of density 1000 kg/m3, and (b) when it is entirely out of the water?
A) (a) 2.0 x 10^5 N (b) 2.6 x 10^3 N
B) (a) 2.0 x 10^5 N (b) 1.7 x 10^5 N
C) (a) 2.6 x 10^3 N (b) 2.0 x 10^5 N
D) (a) 1.7 x 10^5 N (b) 2.0 x 10^5 N

Answers

The tension in the lifting cable when the submarine is entirely out of the water is [tex]1.96 * 10^{5}[/tex] N

Given, Density of the steel submarine, d1 = 7800 kg/m3 Density of water, d2 = 1000 kg/m3. Mass of the steel submarine, m = 20000 kg

The formula to find the tension in the lifting cable is given by, Tension in cable = Weight of the object being lifted - Buoyant force on the object(a) When the submarine is submerged in water of density 1000 kg/m3We know that, Weight = Mass x gravity.

Submerged weight of the submarine,

W1 = Volume of the submarine x Density of water x gravity

V1 = m / d1 = 20000 / 7800 = 20 / 7 m3

W1 = V1 x d2 x g = (20 / 7) x 1000 x 9.8 = 2.0 x 104 N

To calculate the buoyant force, Fb = V x d2 x g where V is the volume of the water displaced by the submarine.

Fb = V x d2 x g = m x g

= 20000 x 9.8

= [tex]1.96 * 10^{5}[/tex] N Tension in cable = Weight of the object being lifted - Buoyant force on the object. Tension in cable = W1 - Fb = 2.0 x 104 - [tex]1.96 * 10^{5}[/tex] = -[tex]1.96 * 10^{5}[/tex] N

Therefore, the tension in the lifting cable when the submarine is submerged in water of density 1000 kg/m3 is -1.76 x 105 N

The negative sign indicates that the tension is in the opposite direction of the force of gravity, which means the crane is lowering the submarine into the water.(b) When it is entirely out of the water

When the submarine is entirely out of the water, the buoyant force will be zero. Tension in cable = Weight of the object being lifted - Buoyant force on the object

Tension in cable = m x g = 20000 x 9.8 = [tex]1.96 * 10^{5}[/tex] N. Therefore, the tension in the lifting cable when the submarine is entirely out of the water is [tex]1.96 * 10^{5}[/tex] N

Since the buoyant force is zero, the tension in the cable is equal to the weight of the submarine.

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A box with a mass of 25 kg rests on a horizontal surface. The coefficient of static friction between the box and the surface is 0.20. What horizontal force must be applied to the box for it to start s

Answers

To start the box sliding along the surface in the positive x direction, a horizontal force greater than 49 N in the positive x direction must be applied.

The maximum static friction force can be calculated using the equation:

f_static_max = μ_static * N

where μ_static is the coefficient of static friction and N is the normal force acting on the box. In this case, since the box is on a horizontal surface, the normal force is equal to the weight of the box:

N = m * g

Substituting the given values:

N = 25 kg * 9.8 m/s² = 245 N

Now, we can determine the maximum static friction force:

f_static_max = 0.20 * 245 N = 49 N

This is the maximum force that can be exerted before the box starts sliding. Therefore, to overcome the static friction and initiate sliding in the positive x direction, a horizontal force greater than 49 N in the positive x direction must be applied. The exact value of the force will depend on the magnitude of the static friction and the force applied.

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Complete Question:

A box with a mass of 25 kg rests on a horizontal surface. The coefficient of static friction between the box and the surface is 0.20. What horizontal force must be applied to the box for it to start sliding along the surface in the positive x direction? Use g = 9.8 m/s². O A horizontal force greater than 49 N in the positive x direction. O A horizontal force equal to 49 N in the positive x direction. O A horizontal force less than 49 N in the positive x direction. O A horizontal force that is either equal to or greater than 49 N in the positive x direction. O None of the other answers

a cubic box of volume 4.6×10−2 m3 is filled with air at atmospheric pressure at 20 ?c . the box is closed and heated to 194?c . Part A What is the net force on each side of the box?

Answers

The box is subject to a net force of 0.98 N on each side.

Given information:

Volume of cubic box = 4.6 × 10⁻² m³

Initial temperature = 20 °C

Final temperature = 194 °C

First, let's determine the mass of the air inside the cubic box.

The density of air is 1.2041 kg/m³ at 20 °C.

Thus, mass of the air

= density × volume

= 1.2041 kg/m³ × 4.6 × 10⁻² m³

= 0.05536 kg

Next, let's determine the initial pressure of air. At standard temperature and pressure (STP), pressure is 101.325 kPa (kilopascals) or 101325 Pa (pascals). At 20 °C, air density is slightly less than that at STP, so we can expect the pressure to be slightly greater.

Using the ideal gas law,

PV = nRT, where

P = pressure,

V = volume,

n = number of moles,

R = ideal gas constant, and

T = temperature, we can solve for pressure.

Rearranging the formula, we have:

P = nRT/V

The ideal gas constant, R = 8.31 J/(mol·K), and the molecular mass of air is approximately 29 g/mol (grams per mole).

Converting the volume of air to liters, we have 4.6 × 10⁻² m³ = 46 L

Initial pressure of air = 1.0332 × 10⁵ Pa × (0.05536 kg)/(29 g) × (8.31 J/(mol·K)) × (20 + 273.15) K/46 L

≈ 260.6 kPa

At 194 °C, using the same formula as before, we get a pressure of P = 1021.3 kPa. The change in pressure is therefore

ΔP = P - P₀

= 1021.3 kPa - 260.6 kPa

= 760.7 kPa

To find the net force on each side of the box, we need to use the formula for pressure,

P = F/A, where

P = pressure,

F = force, and

A = area.

We can rearrange this formula to solve for force: F = PA

We know the change in pressure, and we can assume that the volume of the box remains constant. Therefore, the net force on each side of the box can be determined using the following formula: F = ΔP × AAtmospheric pressure at sea level is approximately 101.3 kPa, so the difference in pressure is approximately 759.4 kPa. Since the box is cubic, each side has an area of A = L², where L is the length of one side. We can find L using the volume of the box,

V = L³:4.6 × 10⁻² m³

= L³L ≈ 3.59 × 10⁻² m

Thus, the area of each side of the box is approximately A = (3.59 × 10⁻² m)² = 1.29 × 10⁻³ m²

Now, we can calculate the net force on each side of the box:

F = ΔP × A= (759.4 × 10³ Pa) × (1.29 × 10⁻³ m²)

= 0.98 N

Therefore, the net force on each side of the box is 0.98 N.

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Two parallel plates are charged to produce a potential difference of 45 V. If the separation between the plates is 0.78 m, calculate the magnitude of the electric field in the space between the plates

Answers

Answer:

Approximately [tex]58\; {\rm N\cdot C^{-1}}[/tex].

Explanation:

The electric field strength [tex]E[/tex] at a given position is equal to the electric force the field exerts on each unit of electric charge. Hence, the unit of the electric field would be newtons (unit of force) per coulomb (unit of charge.)

Electric field strength is also equal to the change in electric potential over unit distance. For example, in a uniform electric field, if the electric potential changes by [tex]\Delta V[/tex] over a distance of [tex]d[/tex], strength of the electric field would be [tex]E = (\Delta V) / d[/tex].

The electric field between two parallel plates is approximately uniform. Thus, the equation [tex]E = (\Delta V) / d[/tex] can be used to find the strength of that field.

In this question, magnitude of the potential difference between the two charged plates is [tex]\Delta V = 45\; {\rm V}[/tex] over a distance of [tex]d = 0.78\; {\rm m}[/tex]. Since this field is uniform, magnitude of the strength of this field would be:

[tex]\begin{aligned}E &= \frac{\Delta V}{d} \\ &= \frac{45\; {\rm V}}{0.78\; {\rm m}} \\ &\approx 58\; {\rm N\cdot C^{-1}}\end{aligned}[/tex].

(Note the unit conversion: [tex]1\; {\rm V} = 1\; {\rm J\cdot C^{-1}} = 1\; {\rm N\cdot m\cdot C^{-1}}[/tex].)

The magnitude of the electric field between the parallel plates is approximately 57.69 V/m. This indicates that for every meter of distance between the plates, there is an electric field strength of 57.69 volts.

The electric field between parallel plates is directly proportional to the potential difference and inversely proportional to the separation distance. This relationship is described by the formula E = V / d, where E is the electric field, V is the potential difference, and d is the separation distance.

The magnitude of the electric field between the parallel plates can be calculated using the formula:

Electric field (E) = Potential difference (V) / Separation distance (d)

Potential difference (V) = 45 V

Separation distance (d) = 0.78 m

Calculating the electric field:

E = V / d

E = 45 V / 0.78 m

E ≈ 57.69 V/m

Therefore, the magnitude of the electric field in the space between the plates is approximately 57.69 V/m.

By substituting the given values into the formula, we can calculate the electric field. In this case, the potential difference is 45 V, and the separation distance is 0.78 m. Dividing the potential difference by the separation distance gives us the magnitude of the electric field.

The magnitude of the electric field between the parallel plates is approximately 57.69 V/m. This indicates that for every meter of distance between the plates, there is an electric field strength of 57.69 volts.

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A 0.10 g honeybee acquires a charge of 24 pC while flying. The electric field near the surface of the earth is typically 100 N/C directed downward.

Part A What is the ratio of the electric force on the bee to the bee's weight?

Part B What electric field strength would allow the bee to hang suspended in the air?

Part C What would be the necessary electric field direction for the bee to hang suspended in the air?

Answers

the necessary electric field direction for the bee to hang suspended in the air is upward.

Given data:

Mass of bee, m = 0.10 g = 0.0001 kg

Charge on bee, q = 24 pC = 24 × 10^(-12) C

Electric field near surface of the Earth, E = 100 N/C

Electric force experienced by the bee, F = qE

Part A

We know that the weight of the bee can be calculated as:

w = mg = 0.0001 × 9.8 = 9.8 × 10^(-4) N

So, the ratio of electric force on bee to the bee's weight is:

F / w = (qE) / (mg) = (24 × 10^(-12) × 100) / (0.0001 × 9.8)≈ 2.45 × 10^(-9)

Part B

We know that the bee will hang suspended in the air if the electric force experienced by the bee is equal and opposite to the weight of the bee.

So, the electric field strength required to suspend the bee in air is given by:

E = (mg) / q = (9.8 × 10^(-4)) / (24 × 10^(-12))≈ 4.08 × 10^(7) N/C

Part C

For the bee to hang suspended in the air, the electric field should be directed upwards, opposite to the direction of gravitational force acting on the bee.

So, the necessary electric field direction for the bee to hang suspended in the air is upward.

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how does the molecular weight of the pigment relate to the rf value? what does a small rf number tell you about the characteristics of the moving molecules vs a large rf number?

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Therefore, when a substance has a large rf value, it implies that it is less polar.

In chromatography, rf value is a measure that is used to assess the migration of a chemical substance on a chromatogram. The value is found by dividing the distance traveled by the substance by the distance traveled by the solvent front. The molecular weight of the pigment is related to the rf value because rf value is a measure of the degree of polarity of the pigment and its molecular weight.

Molecules with a higher molecular weight take a longer period of time to travel a certain distance as compared to those with a lower molecular weight, this is because larger molecules experience stronger intermolecular forces of attraction hence more difficult to move. In this case, if the pigment has a higher molecular weight, it will travel at a slower pace, and as a result, the rf value will be smaller.

Moving molecules with smaller rf values are more polar than those with large values. This is because the more polar a substance is, the more it will bond with the adsorbent on the chromatography paper, hence the lower the distance it will travel.

Therefore, when a substance has a small rf value, it implies that it is more polar. On the other hand, if a molecule has a large rf value, it is less polar because it will move faster due to its low intermolecular forces of attraction and bond less with the adsorbent on the chromatography paper.

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(a) Find the average rate of change of the area of a circle withrespect to its radius r as r changes from2 to each of the following.
(i) 2 to 3 (ii) 2 to 2.5 (iii) 2 to 2.1 (b) Find the instantaneous rate of change when r =2.
A'(2)

Answers

(a) The average rate of change of area from 2 to 3 is 19.86, from 2 to 2.5 is 9.91, and from 2 to 2.1 is 6.74. (b) The instantaneous rate of change when r = 2 is 4π square units.

(a) The area of the circle A = πr². The derivative of A with respect to r is 2πr. The average rate of change is obtained by dividing the difference in the function by the difference in the independent variable. The difference in the independent variable is the final value minus the initial value.

Therefore, we can obtain the average rate of change of the area of a circle with respect to its radius r as r changes from 2 to 3 by:

ΔA/Δr = [π(3)² - π(2)²] / (3 - 2) = 19.86.

Similarly, the average rate of change of the area of a circle with respect to its radius r as r changes from 2 to 2.5 is:

ΔA/Δr = [π(2.5)² - π(2)²] / (2.5 - 2) = 9.91

and the average rate of change of the area of a circle with respect to its radius r as r changes from 2 to 2.1 is:

ΔA/Δr = [π(2.1)² - π(2)²] / (2.1 - 2) = 6.74

(b) We have found that the derivative of A with respect to r is 2πr. When r = 2, we have A'(2) = 2π(2) = 4π square units. Thus, the instantaneous rate of change when r = 2 is 4π square units.

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If a roller coaster train has a potential energy of and a kinetic energy of as it starts to travel downhill, its total energy is _____ . Once the roller coaster train gets closer to the bottom of the hill, its kinetic energy increases to , and its potential energy decreases to _____ . When the train reaches the bottom of the track and is traveling along the ground, its kinetic energy is _____

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The total energy of a system can be expressed as the sum of its kinetic energy and potential energy.

If a roller coaster train has a potential energy of PE and a kinetic energy of KE as it starts to travel downhill, its total energy is PE + KE. Once the roller coaster train gets closer to the bottom of the hill, its kinetic energy increases to KE2, and its potential energy decreases to PE2. When the train reaches the bottom of the track and is traveling along the ground, its kinetic energy is KE3.

Potential energy is the energy that is stored within an object. It is the energy that an object possesses due to its position in a force field or a system. This energy is also referred to as stored energy or energy of position. It has the ability to be converted into other forms of energy, such as kinetic energy or radiant energy.

Kinetic energy is the energy an object possesses as a result of its motion. It is directly proportional to an object's mass and the square of its velocity. As a result, the faster an object moves, the more kinetic energy it possesses. Kinetic energy is a scalar quantity, which means it has no direction. It is also a form of mechanical energy since it arises as a result of the motion of an object.

Total energy is the sum of all the different forms of energy present in a system. It is a scalar quantity that is conserved in a closed system. Total energy includes both kinetic energy and potential energy. Total energy is conserved in a closed system, which means that it cannot be created or destroyed; rather, it can only be transferred or converted from one form to another. Therefore, the total energy of a system can be expressed as the sum of its kinetic energy and potential energy.

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If you want to produce a stronger field in a long solenoid, what is the best option from the below options:

Group of answer choices

Increase bothy the radius and length

Increase the length of th solenoid

Increase the radius of the solenoid
The field strength for the East radial field has how many peaks?

Answers

To produce a stronger field in a long solenoid, you need to increase the number of turns of wire per unit length.

In a long solenoid, the magnetic field strength is directly proportional to the number of turns of wire per unit length. Increasing the number of turns of wire per unit length, therefore, increases the magnetic field strength. However, increasing the radius and length of the solenoid does not have the same effect.

Increasing the radius of the solenoid reduces the magnetic field strength at the center of the solenoid, while increasing the length of the solenoid only increases the magnetic field strength at the ends of the solenoid. Hence, if you want to produce a stronger magnetic field throughout the solenoid, increasing the number of turns of wire per unit length is the best option.

The magnetic field strength of a long solenoid is a uniform radial field, meaning that the magnetic field strength is the same at all points along the radial direction. Therefore, the field strength for the east radial field has only one peak, which is at the center of the solenoid.

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Exercise 2.35 Part A If a flea can jump straight up to a height of 0.440 m, what is its initial speed as it leaves the ground? || ΑΣΦ SHE ? V= m/s Submit ▾ Part B Request Answer How long is it in

Answers

Part A: The initial speed of the flea as it leaves the ground is approximately 2.09 m/s.

Part B: The flea is in the air for approximately 0.301 seconds.

Explanation to the above given short answers are written below,

Part A: To find the initial speed of the flea, we can use the fact that the vertical motion of the flea follows the equations of motion for free fall.

The height reached by the flea is given by the equation
h = (v^2) / (2g),
where v is the initial speed and
g is the acceleration due to gravity.

Rearranging the equation to solve for v, we have
v = √(2gh).

Substituting the given values, we have
v = √(2 * 9.8 m/s^2 * 0.440 m) ≈ 2.09 m/s.

Part B: The time the flea is in the air can be calculated using the equation
t = √(2h/g),
where h is the height and
g is the acceleration due to gravity.

Substituting the given values, we have
t = √(2 * 0.440 m / 9.8 m/s^2) ≈ 0.301 s.

Therefore, the flea is in the air for approximately 0.301 seconds.

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for an m/g/1 system with λ = 20, μ = 35, and σ = 0.005. find the probability the system is idle.

Answers

For a m/g/1 system with parameters 20, 35, and 0.005, respectively. When the system is not in use, the likelihood is 0.4286.

Thus, When the service rate is 35 and the arrival rate is 20, with a standard deviation of 0.005, the likelihood of finding no customers in the wait is 0.4286, or 42.86%.

An m/g/1 system has a m number of servers, a g number of queues, and a g number of interarrival time distributions. Here, = 20 stands for the arrival rate, = 35 for the service rate, and = 0.005 for the service time standard deviation and probablility.

Using Little's Law, which asserts that the average client count in the system (L) equals 1, we may calculate the probability when the system is idle and parameters.

Thus, For a m/g/1 system with parameters 20, 35, and 0.005, respectively. When the system is not in use, the likelihood is 0.4286.

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A 60-Ohm resistor is connected in parallel with a 20-Ohm resistor. What is the equivalent resistance of the combination?

Answers

The equivalent resistance of a 60-Ohm resistor connected in parallel with a 20-Ohm resistor is 13.3 Ohms.

To determine the equivalent resistance of a combination of resistors connected in parallel, the following formula can be used:

Req=1/(1/R1+1/R2+...+1/Rn)

where Req is the equivalent resistance and R1, R2, ..., Rn are the resistances of the individual resistors connected in parallel.

Given that a 60-Ohm resistor is connected in parallel with a 20-Ohm resistor.Using the above formula we have;

Req=1/(1/60 + 1/20)

Calculate the individual reciprocals first.

1/60 = 0.01671/20 = 0.05

Substitute into the formula;Req = 1/(0.0167 + 0.05)Req = 13.3 ohms

Therefore, the equivalent resistance of the combination is 13.3 Ohms.

In summary, the equivalent resistance of a 60-Ohm resistor connected in parallel with a 20-Ohm resistor is 13.3 Ohms. The formula used in solving for the equivalent resistance is Req=1/(1/R1+1/R2+...+1/Rn).

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What is the frequency of an electromagnetic wave with a wavelength of 17 cm? Express your answer to two significant figures and include the appropriate units

Answers

The frequency of an electromagnetic wave with a wavelength of 17 cm is approximately 1.8 × [tex]10^9[/tex] Hz.

Electromagnetic waves are composed of oscillating electric and magnetic fields that propagate through space. The frequency of an electromagnetic wave refers to the number of complete cycles it completes per second, measured in hertz (Hz). The wavelength, on the other hand, represents the distance between two consecutive points in the wave that are in phase.

To calculate the frequency of an electromagnetic wave, we can use the formula:

frequency = speed of light / wavelength

The speed of light in a vacuum is approximately 3.00 × [tex]10^8[/tex] meters per second. However, it is important to convert the given wavelength of 17 cm into meters before applying the formula. One meter is equal to 100 centimeters, so 17 cm is equivalent to 0.17 meters.

Now, we can substitute the values into the formula:

frequency = (3.00 × 10^8 m/s) / (0.17 m)

= 1.8 × 10^9 Hz

Therefore, the frequency of an electromagnetic wave with a wavelength of 17 cm is approximately 1.8 × [tex]10^9[/tex] Hz.

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A stone is thrown horizontally at 30.0 m/s from the top of a very tall clifl. (a) Calculate its borzoetal peasation and vertical poution at 2 s intervals for the first 10.0s. (b) Plot your positions f

Answers

a. The horizontal position and vertical position at 2-second intervals for the first 10.0 seconds is: 0.0 m

b. The graph will show a straight line parallel to the x-axis representing the horizontal position of the stone, and another horizontal line at y = 0.0 m representing the stone's constant vertical position

(a) The stone's horizontal position at 2-second intervals for the first 10.0 seconds is constant and equal to the initial horizontal velocity multiplied by time: 60.0 m, 120.0 m, 180.0 m, 240.0 m, 300.0 m, 360.0 m, 420.0 m, 480.0 m, 540.0 m, 600.0 m.

The stone's vertical position at 2-second intervals for the first 10.0 seconds can be calculated using the formula: vertical position = (1/2) × acceleration × time².

Since the stone is thrown horizontally, its vertical position remains constant at 0.0 m throughout the motion.

(b) The graph of the stone's trajectory will have time on the x-axis and position on the y-axis. Since the stone is thrown horizontally, the horizontal position will increase linearly with time, resulting in a straight line parallel to the x-axis.

The vertical position remains constant at 0.0 m, so it will be a horizontal line at y = 0.0 m.

The graph will show a straight line parallel to the x-axis representing the horizontal position of the stone, and another horizontal line at y = 0.0 m representing the stone's constant vertical position.

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The given question is incomplete, so a complete question is written below,

A stone is thrown horizontally at 30.0 m/s from the top of a very tall cliff. (a) Calculate its horizontal position and vertical position at 2-second intervals for the first 10.0 seconds. (b) Plot your positions on a graph, with time on the x-axis and position on the y-axis, to visualize the stone's trajectory.

Calculate the energy for the transition of an electron from the n = 5 level to the n = 8 level of a hydrogen atom.
delta16-1.GIFE = _____ Joules

Answers

The energy for the transition of an electron from the n = 5 level to the n = 8 level of a hydrogen atom is 8.44 x 10^-20 J.

Given that the transition of an electron from the n = 5

level to the n = 8 level of a hydrogen atom and

the energy for the transition of an electron from the n = 5 level to the n = 8 level of a hydrogen atom is to be calculated.

We know that the energy for the transition of an electron from the n = i level to the n = f

level of a hydrogen atom is given by the formula:ΔE = -2.18 x 10^-18 (1/nf² - 1/ni²)

where,ΔE = Energy for the transition of an electronn = Principal Quantum number

f = Final Statei = Initial state

Therefore, substituting the given values in the formula, we get;ΔE = -2.18 x 10^-18 (1/8² - 1/5²)ΔE = -2.18 x 10^-18 (1/64 - 1/25)ΔE = -2.18 x 10^-18 [(25 - 64)/1600]

ΔE = -2.18 x 10^-18 [- 39/1600]

ΔE = 8.44 x 10^-20 J

The energy for the transition of an electron from the n = 5 level to the n = 8 level of a hydrogen atom is 8.44 x 10^-20 J.

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calculate the ph of a solution that is 0.26 m hno 2 and 0. 78 m lino 2

Answers

A solution of 0.26 M HNO2 and 0.78 M LiNO2 is given.

Let's calculate the pH of this solution. HNO2 is a weak acid, while LiNO2 is a salt of a weak acid.

The overall reaction is:

HNO2 + LiNO2 ⟶ HNO2 + LiNO2 HNO2 is a weak acid that ionizes in water to form H+ ions and NO2- ions:

HNO2 + H2O ⟶ H3O+ + NO2-

The acid dissociation constant (Ka) of HNO2 is 4.5 × 10^-4.

The concentration of the H+ ion in a 0.26 M HNO2 solution is given by the equation:

[tex]Ka = [H+][NO2-]/[HNO2] [H+][/tex]

= Ka [HNO2] / [NO2-] [H+]

= 4.5 × 10^-4 × 0.26 / 0.26

pH = -log[H+]

pH = -log (4.5 × 10^-4)

pH = 3.35

LiNO2 dissociates in water to form Li+ ions and NO2- ions.

LiNO2 ⟶ Li+ + NO2-

The NO2- ions produced in the ionization of HNO2 and LiNO2 combine to form LiNO2. The solution's pH can also be calculated using the equation above.

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To what temperature would you have to heat a brass rod for it to be 1.4 % longer than it is at 25 ∘C?
Express your answer to two significant figures and include the appropriate units.

Answers

The brass rod would need to be heated to approximately 737°C to be 1.4% longer than its length at 25°C.

To determine the temperature at which a brass rod would be 1.4% longer than its length at 25°C, we can use the thermal expansion coefficient of brass. The thermal expansion coefficient of brass is typically around 19 × 10^(-6) per degree Celsius.

Let's denote the initial length of the brass rod at 25°C as L₀. The increase in length is given by ΔL = 1.4% of L₀.

ΔL = 0.014 * L₀

The change in length is related to the temperature change ΔT by the formula:

ΔL = α * L₀ * ΔT

Where α is the thermal expansion coefficient.

Substituting the values, we have:

0.014 * L₀ = (19 × 10^(-6) / °C) * L₀ * ΔT

Simplifying the equation, we find:

ΔT = (0.014 / (19 × 10^(-6) / °C))

ΔT ≈ 0.7368 × 10^3 °C

Therefore, the brass rod would need to be heated to approximately 737°C to be 1.4% longer than its length at 25°C.

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What is the average power necessary to move a 35 kg block up a frictionless 30° incline at 5 m/s? 68 W 121 W 343 W 430 W 860 W

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The average power necessary to move the 35 kg block up the frictionless 30° incline at 5 m/s is approximately 857.5 Watts, which is closest to 860 W.

To find the average power necessary to move the block up the incline, we can use the formula for power:

Power (P) = (Force * Distance) / Time

We need to find the force required to move the block up the incline. The force can be calculated using the component of the weight parallel to the incline, which is given by:

Force = Weight * sin(θ)

where:

Weight = mass * gravity

θ = angle of the incline

Mass (m) = 35 kg

θ = 30°

Velocity (v) = 5 m/s

First, let's calculate the weight:

Weight = mass * gravity

= 35 kg * 9.8 m/s^2

= 343 N

Now, let's calculate the force:

Force = Weight * sin(θ)

= 343 N * sin(30°)

≈ 171.5 N

Since the incline is frictionless, the force required to move the block is equal to the force parallel to the incline.

Next, we need to find the distance traveled up the incline. The distance can be calculated using the displacement formula:

Distance = velocity * time

Velocity (v) = 5 m/s

Time (t) = 1 second (assuming the block moves for 1 second)

Distance = 5 m/s * 1 s

= 5 m

Now, we can calculate the average power:

Power = (Force * Distance) / Time

= (171.5 N * 5 m) / 1 s

= 857.5 W

Therefore, the average power necessary to move the 35 kg block up the frictionless 30° incline at 5 m/s is approximately 857.5 Watts.

The average power necessary is approximately 857.5 Watts, which is closest to 860 W.

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When the bell in a clock tower rings with a sound of 470 Hz, a pigeon roosting in the belfry flies directly away from the bell ▼ Part A If the pigeon hears a frequency of 448 Hz, what is its speed? Express your answer to three significant figures and include appropriate units.

Answers

The speed of pigeon is approximately 12.2 meters per second.

To determine the speed of the pigeon, we can use the Doppler effect equation, which relates the observed frequency to the source frequency and the relative speed between the source and the observer. In this case, the observed frequency is 448 Hz, and the source frequency is 470 Hz.

The Doppler effect equation for sound can be written as:

f' = f(v + vo) / (v + vs)

Where:

f' is the observed frequency,f is the source frequency,v is the speed of sound,vo is the speed of the observer,vs is the speed of the source.

Since the pigeon is flying away from the bell, its speed (vo) is positive, and the speed of sound (v) is a constant. We need to solve for the speed of the pigeon (vs).

Rearranging the equation, we get:

vs = f'v / (f' - f)

Substituting the given values, we have:

vs = (448 Hz)(343 m/s) / (448 Hz - 470 Hz)

Calculating this expression, we find that the speed of the pigeon is approximately 12.2 meters per second.

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The amount of energy required to change one gram of a liquid, at its boiling point, to a gas is called its heat of:
A. sublimation.
B. freezing.
C. fusion.
D. vaporization.

Answers

The amount of energy required to change one gram of a liquid, at its boiling point, to a gas is called its heat of vaporization. It is an endothermic process that is generally measured in joules (J) per mole (mol).

the correct option is D. Vaporization.

The heat of vaporization is the energy needed to convert a unit mass of liquid into a gas at a given temperature. It is a measure of the strength of the intermolecular forces in a liquid because it requires breaking these bonds to turn the liquid into a gas. The heat of vaporization varies among different liquids depending on their chemical structures. For instance, water has a high heat of vaporization due to hydrogen bonding between its molecules.

The heat of vaporization of water is 40.7 kJ/mol at 100°C, meaning it takes 40.7 kJ of energy to vaporize one mole of water at that temperature. Therefore, it is a useful property that can be utilized in the chemical and physical sciences to understand how different substances behave when exposed to varying conditions. Therefore, the correct option is D. Vaporization.

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"During this period Post-Fiji got huge suffering in terms of the revenue drops, especially when the lockdown happened and the international borders closed." Dr. Bansod said there were no mails coming through, as EMS and the parcels stopped too causing a huge decline in terms of their revenue. "We continued our operations during the lockdown period when most of the business was shut." Post-Fiji however will be moving away from the bonus systems and incorporating a performance measurement system. "So what it means is that the people who work hard, who work smart, and deliver better results will be getting better incentive than the general bonus system. "The drawback of the bonus system is basically whether you work or not work, everybody gets the similar rate, but we at Post Fiji are working with a new culture, new mindset, where the productivity will be delivered as a major focus of the business. "So what it means is that the people who work hard, who deliver the best results, definitely will be given better incentive than the rest of the people." He said the postal business was in a decline but with the teams effort, they managed to sustain their business, especially during the COVID-19 pandemic. Dr. Bansod also said this New Year they would be developing the skills, knowledge and capacity building of their existing staff. He said the postal staff was used for postal services for a long period of time however they had diversified many of their product and services. Source: The Fiji Times Bonus payout: 348 staff members to receive $134, 941.60Questions:Discuss the benefits of using a reward system like Post Fiji in an organization.Identify and discuss the elements that make up the employee reward package.Discuss three factors that can affect Post Fiji compensation planning.Discuss the three types of job evaluation Post Fiji could use. 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The following table describes several of Lost Pigeon's and Blue Mouse's major attributes: Lost Pigeon Blue Mouse Total assets Total debt Expected EBIT Standard deviation of expected EBIT Manufacturing Inc. Production Inc $4,800,000 $960,000 $1,152,000 $278,400 $4,800,000 $2,640,000 $1,152,000 $187,200 Use the given financial data to indicate which firm has the higher degree of each type of risk Which firm has more financial risk? Which firm has more business risk? Blue Mouse O Lost Pigeon O Lost Pigeon Blue Mouse the position of a ball as a function of time is given by x=(4.8m/s)t (9m/s2)t2 . part a what is the initial position of the ball? which symptom would the nurse expect in a patient diagnosed with hyperaldosteronism? 1. Explain the significance of social selling in modem sales settings. (5 marks) 2. Identify and discuss the reasons for a sales presentation failure. (5 marks) 3. What is the importance of prospecting in sales? Let the nominal exchange rate between USD and Japanese Yen is 100 (that is 1 USD 100 Yen). Suppose the price of a latte in the USA is $3 and in Japan is 240 Yen Calculate the real exchange rate between USA and Mexico measure in Japanese Latte per USA latte). - Suppose, a Hamburger costs $5 in the USA and 20 pesos in Mexico. If the law of one price exists between the USA and Mexico, then compute the nominal exchange rate between USD and Peso. An interest payment received by Ford Motors from its bond investments in UK should be recorded in the US Balance of Payment account as: debit to net investment income account O debit to capital account O credit to net investment income account O credit to capital account Question 18 10 pts In the US Balance of Payments accounts, a sale of British government bonds by the US Federal Reserve Bank, should be treated as: O credit to capital account O debit to capital account O credit to official reserve account Odebit to official reserve account D interpret the slope value in a sentence by filling in the blanks in the sentence below. the ___i____ is changing by ____ii_____ ___iii____ per __iv___. Financial accounting focuses primarily on reporting: O to middle-level managers. O to financial institutions. O to parties outside an organization. O to parties within an organization. to an organization's board of directors.