The magnetic field in a plane monochromatic electromagnetic wave with wavelength ? = 453 nm, propagating in a vacuum in the z-direction is described by
B? =(B1sin(kz??t))(i^+j^)
where B1 = 9 X 10-6 T, and i-hat and j-hat are the unit vectors in the +x and +y directions, respectively.

Answers

Answer 1

The magnetic field of the electromagnetic wave can be written as:

B = (9 × 10^-6 T) * sin[(1.39 × 10^7 m^-1)z - ωt] * (i^ + j^)

where ω is the angular frequency associated with the wavelength λ.

The given equation describes the magnetic field (B) of a plane monochromatic electromagnetic wave propagating in the z-direction in a vacuum. The magnetic field is given by:

B = B1 * sin(kz - ωt) * (i^ + j^)

where B1 = 9 × 10^-6 T is the amplitude of the magnetic field, k is the wave number, z is the position along the propagation direction, ω is the angular frequency, t is time, and i^ and j^ are unit vectors in the +x and +y directions, respectively.

The wave number (k) can be calculated using the formula:

k = 2π / λ

where λ is the wavelength of the electromagnetic wave. In this case, the wavelength is given as λ = 453 nm, which can be converted to meters as:

λ = 453 nm * (1 m / 10^9 nm) = 4.53 × 10^-7 m

Substituting this value of λ into the equation, we can calculate the wave number:

k = 2π / (4.53 × 10^-7 m) ≈ 1.39 × 10^7 m^-1

Therefore, the magnetic field of the electromagnetic wave can be written as:

B = (9 × 10^-6 T) * sin[(1.39 × 10^7 m^-1)z - ωt] * (i^ + j^)

where ω is the angular frequency associated with the wavelength λ.

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Related Questions

what is the y component of the force on the particle at y=0.5m? what is the y-component of the force on the particle at y=4m?

Answers

The y-component of the force on the particle at y = 4 m is -4.9 N.

To calculate the y-component of the force on the particle at y = 0.5 m and at y = 4 m, we need to first understand the given information. In physics, force is the push or pull on an object due to its interaction with another object. The formula for calculating force is F = ma, where F is the force, m is the mass of the object and a is the acceleration due to force. In this case, we have a gravitational force acting on the particle and the formula for gravitational force is Fg = mg, where Fg is the gravitational force, m is the mass of the particle and g is the acceleration due to gravity. We know that the force is acting on a particle and the force is the gravitational force which is acting due to the interaction between the particle and the Earth. The y-component of the force on the particle at y = 0.5 m:

From the given information, we know that the particle is located at a height of 0.5 m above the ground.

Hence, we can calculate the gravitational force acting on the particle by the following formula: Fg = mg, where m is the mass of the particle and g is the acceleration due to gravity. Fg = 0.5 kg * 9.8 m/s^2 = 4.9 N

Now, we know that the gravitational force is acting downwards on the particle, hence the y-component of the force will be negative. Thus, the y-component of the force on the particle at y = 0.5 m is -4.9 N. The y-component of the force on the particle at y = 4 m: From the given information, we know that the particle is located at a height of 4 m above the ground. Hence, we can calculate the gravitational force acting on the particle by the following formula:Fg = mg, where m is the mass of the particle and g is the acceleration due to gravity. Fg = 0.5 kg * 9.8 m/s^2 = 4.9 N

Now, we know that the gravitational force is acting downwards on the particle, hence the y-component of the force will be negative. Thus, the y-component of the force on the particle at y = 4 m is -4.9 N.

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A car and its suspension system can be simply modelled as a
large mass (the mass of the car) on a spring.
Calculate the effective spring constant in this model if the
suspension is adjusted so the 130

Answers

Answer:

Explanation:

To calculate the effective spring constant of a car's suspension system, we need to know the mass of the car and the displacement of the suspension system under a certain load.

Let's assume that the car's mass is represented by m and the displacement of the suspension system under a load of 130 N is represented by x.

In this model, the force exerted by the spring is given by Hooke's Law:

F = -k * x

where F is the force, k is the spring constant, and x is the displacement.

The weight of the car is given by:

Weight = m * g

where m is the mass of the car and g is the acceleration due to gravity.

Since the suspension system is adjusted so that the force exerted by the spring is equal to the weight of the car, we have:

k * x = m * g

Rearranging the equation, we can solve for the spring constant k:

k = (m * g) / x

Therefore, to calculate the effective spring constant in this model, we need to know the mass of the car (m), the acceleration due to gravity (g), and the displacement of the suspension system under a load of 130 N (x).

In a simplified model of a car and its suspension system, the effective spring constant can be calculated by adjusting the suspension to achieve a specific frequency. By using Hooke's law and the equation for natural frequency, the effective spring constant is found to be (4π²m)/130², where m is the car's mass.

In the simplified model of a car and its suspension system, where the car's mass is represented as a large mass on a spring, the effective spring constant can be calculated using Hooke's law and the equation for the natural frequency of a mass-spring system.

Hooke's law states that the force exerted by a spring is proportional to the displacement from its equilibrium position. Mathematically, it can be expressed as F = -kx, where F is the force, k is the spring constant, and x is the displacement.

The natural frequency of a mass-spring system is given by the equation f = 1/(2π√(m/k)), where f is the frequency, m is the mass, and k is the spring constant.

In this case, the suspension is adjusted so the 130

By equating the two equations above, we have:

130 = 1/(2π√(m/k))

Rearranging the equation, we get:

k = (4π²m)/130²

The effective spring constant (k) is therefore given by (4π²m)/130², where m is the mass of the car.

It's important to note that this simplified model neglects many factors and complexities of a real suspension system, and actual suspensions are more intricate with multiple components and nonlinear behaviors.

This model serves as a basic approximation for understanding the behavior of the system under simplified conditions.

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How much heat is necessary to change 20g of ice at 0 degree C into water at 0 degree C? (Lf = 80kcal/kg)

Answers

To change 20g of ice at 0 degree C into water at 0 degree C, 1600 calories of heat energy is required.Latent heat of fusion (Lf) is the energy released or absorbed by a substance during a change in state (from solid to liquid or liquid to solid) without any change in temperature.

Latent heat of fusion (Lf) is the energy released or absorbed by a substance during a change in state (from solid to liquid or liquid to solid) without any change in temperature.In this case, we are required to calculate the amount of heat energy required to change 20g of ice at 0 degree C into water at 0 degree C.Using the given formula:Heat energy = mass × latent heat of fusion= 20g × 80 kcal/kg= 1600 calories. Therefore, 1600 calories of heat energy is required to change 20g of ice at 0 degree C into water at 0 degree C.

When heat is applied to a substance, its temperature rises as the molecules in the substance vibrate more and move apart from each other. Eventually, the heat supplied is used up in breaking the intermolecular bonds between the molecules and overcoming the forces of attraction holding them together.At this point, the substance begins to change its state (e.g. from solid to liquid). During the state change, the temperature of the substance remains constant as the heat energy is being used to break the bonds between the molecules and not to increase their kinetic energy (i.e. temperature).This energy required to change the state of a substance without any change in temperature is called the latent heat of fusion. The value of latent heat of fusion for ice is 80 kcal/kg.To change 20g of ice at 0 degree C into water at 0 degree C, 1600 calories of heat energy is required. This is calculated using the formula:Heat energy = mass × latent heat of fusion= 20g × 80 kcal/kg= 1600 calories.Therefore, 1600 calories of heat energy is required to change 20g of ice at 0 degree C into water at 0 degree C.

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A particale's velocity function is given by V=4t² + 3t - 2 with V in meter/second and t in second Find the acceleration at t-2 s 19m/s2.a 11m/s2.b 20m/s2.c 8m/s2 d 1507 SIMET 150 N 10 PEET 1655 PELLE

Answers

The acceleration at t = 2 seconds is 20 m/s2.The velocity function for a particle is V = 4t² + 3t - 2, with V in meters/second and t in seconds.

The acceleration is the time derivative of velocity. It is denoted as a(t) or V'(t). The acceleration at a specific point in time t can be found by differentiating the velocity function with respect to time t. Thus, the acceleration function a(t) = dV(t)/dt. Differentiating the velocity function V(t) = 4t² + 3t - 2 with respect to t gives the acceleration function a(t) = 8t + 3. When t = 2 seconds, the acceleration is a(2) = 8(2) + 3 = 16 + 3 = 19 m/s2. Therefore, the acceleration at t = 2 seconds is 19 m/s2.

Speed increase is characterized as. The pace of progress of speed as for time. Because it has both magnitude and direction, acceleration is a vector quantity. It is additionally the second subordinate of position concerning time or it is the primary subsidiary of speed regarding time

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find the thevenin voltage using nodal anaylis (no other method will be accepted)

Answers

Solve the nodal equation to obtain the value of v1. This will be the The venin voltage across the load.6. Verify the result by finding the open-circuit voltage between the two reference nodes, which should be equal to the Thevenin voltage.

To find the Thevenin voltage using nodal analysis, follow the steps below:

Step 1: Take the two nodes in the circuit and assign them as the reference nodes. Assign voltages v1 and v2 to the remaining nodes. Label the voltage source with the appropriate node voltages.

Step 2: Write nodal equations for both nodes using Kirchhoff’s current law. The nodal equations should be written in terms of the two node voltages and current flowing into the node.

Step 3: Substitute the value of v2 in terms of v1 in the nodal equation of the second node. This will give you a single nodal equation with only one variable, v1.

Step 4: Solve the nodal equation to obtain the value of v1.  This will be the Thevenin voltage across the load.

Step 5: To verify your result, remove the load resistance from the circuit, find the open-circuit voltage between the two reference nodes, which should be equal to the Thevenin voltage.1. Identify two reference nodes.2. Assign voltages v1 and v2 to the remaining nodes.3. Write nodal equations for both nodes using Kirchhoff’s current law. 4. Substitute the value of v2 in terms of v1 in the nodal equation of the second node.5. Solve the nodal equation to obtain the value of v1. This will be the The venin voltage across the load.6. Verify the result by finding the open-circuit voltage between the two reference nodes, which should be equal to the Thevenin voltage.

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A pinball bounced around its machine before resting between two bumpers. Before the ball came to rest, its displacement was recorded as a series of vectors. All the angles are measured counterclockwise from the horizontal x-axis. V₁: 83.0 cm at 90.0 V₂:57.0 cm at 149¹ V₁: 61.0 cm at 223¹ Find the magnitude and direction of the ball's total displacement. magnitude: cm direction:

Answers

The magnitude of the ball's total displacement is approximately 94.7 cm. The direction of the displacement is approximately 195° counterclockwise from the horizontal x-axis.

To find the magnitude and direction of the ball's total displacement, we need to sum up the individual displacement vectors.

Given displacement vectors:

V₁: 83.0 cm at 90.0°

V₂: 57.0 cm at 149°

V₃: 61.0 cm at 223°

To find the total displacement, we can break down the vectors into their x and y components and then add them up.

For V₁:

V₁x = 83.0 cm * cos(90.0°) = 0 cm

V₁y = 83.0 cm * sin(90.0°) = 83.0 cm

For V₂:

V₂x = 57.0 cm * cos(149°)

V₂y = 57.0 cm * sin(149°)

For V₃:

V₃x = 61.0 cm * cos(223°)

V₃y = 61.0 cm * sin(223°)

Now we can calculate the sum of the x and y components:

Total displacement in the x-direction:

ΣVx = V₁x + V₂x + V₃x

Total displacement in the y-direction:

ΣVy = V₁y + V₂y + V₃y

To find the magnitude and direction of the total displacement, we can use the Pythagorean theorem and trigonometry:

Magnitude of displacement:

|ΣV| = sqrt((ΣVx)² + (ΣVy)²)

Direction of displacement:

θ = atan(ΣVy / ΣVx)

By substituting the given values and performing the calculations, we get:

V₁x = 0 cm

V₁y = 83.0 cm

V₂x ≈ -31.9 cm

V₂y ≈ 47.0 cm

V₃x ≈ -34.1 cm

V₃y ≈ -39.9 cm

ΣVx = V₁x + V₂x + V₃x

ΣVy = V₁y + V₂y + V₃y

|ΣV| = sqrt((ΣVx)² + (ΣVy)²)

θ ≈ atan(ΣVy / ΣVx)

By substituting the values and performing the calculations, we find:

ΣVx ≈ -65.9 cm

ΣVy ≈ 90.1 cm

|ΣV| ≈ 94.7 cm

θ ≈ 195°

Therefore, the magnitude of the ball's total displacement is approximately 94.7 cm, and the direction of the displacement is approximately 195° counterclockwise from the horizontal x-axis.

The ball's total displacement is approximately 94.7 cm in magnitude, and its direction is approximately 195° counterclockwise from the horizontal x-axis.

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"
Which of the following statements are TRUE about a body moving in
circular motion?

A. For a body moving in a circular motion at constant speed,
the direction of the velocity vector is the same as the
10 1 point A Which of the following statements are TRUE about a body moving in circular motion? A. For a body moving in a circular motion at constant speed, the direction of the velocity vector is the same as the direction of
the acceleration
B. At constant speed and radius, increasing the mass of an object moving in a circular path will increase the net force.
C. If an object moves in a circle at a constant speed, its velocity vector will be constant in magnitude but changing in direction

a.) A and B
b.) A, B and C
c.) A and C
d.) B and C

Answers

Option c) A and C statements are TRUE about a body moving in circular motion.

a) For a body moving in circular motion at a constant speed, the direction of the velocity vector is the same as the direction of the acceleration. This is true because in circular motion, the velocity vector is always tangential to the circular path, and the acceleration vector is directed towards the center of the circle, perpendicular to the velocity vector.

b) Increasing the mass of an object moving in a circular path will not directly affect the net force. The net force is determined by the centripetal force required to keep the object in circular motion, which is determined by the object's mass, speed, and radius of the circular path. Increasing the mass alone does not change the net force.

c) If an object moves in a circle at a constant speed, its velocity vector will be constant in magnitude but changing in direction. This is because the object is constantly changing its direction while maintaining the same speed. Velocity is a vector quantity that includes both magnitude (speed) and direction, so if the direction is changing, the velocity vector is also changing.

Therefore, the correct statements are A and C.

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swell is more regular than waves in the wind-generated area because of what?

Answers

Swell is more regular than waves in the wind-generated area because of the properties of the waves. Swell is a set of ocean waves that are formed by far-off storms or winds.

They move away from the storm that generated them, traveling over vast expanses of water. Their wavelength, amplitude, and speed depend on their distance from the storm and the duration and strength of the storm that created them.

In general, swells have longer wavelengths, larger amplitudes, and higher speeds than wind-generated waves. As a result, they travel faster and maintain their shape over greater distances. This makes them more regular than wind-generated waves because they are less influenced by local wind conditions and topography.

Wind-generated waves, on the other hand, are created by local winds that blow over the surface of the ocean. They have shorter wavelengths and lower speeds than swells and are more affected by the local wind conditions and topography. Because of this, wind-generated waves are more irregular and variable than swells.

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in δmno, m = 150 inches, n = 550 inches and o=630 inches. find the measure of ∠o to the nearest 10th of a degree.

Answers

The measure of ∠O in the triangle δMNO is 59.5°.

Given the triangle δMNO where M=150 inches, N=550 inches, and O=630 inches. We need to find the measure of angle ∠O. We can use the Law of Cosines to solve the problem. According to the Law of Cosines,a² = b² + c² - 2bc cos(A) where: a, b, c are the sides of the triangle.

A is the angle opposite to the side a. Applying the Law of Cosines to the triangle δMNO gives us:

OM² = MN² + ON² - 2MN.ON.cos(∠O).

Substituting the given values into the above equation, we have 630² = 550² + 150² - 2(550)(150) cos(∠O).

Simplifying and solving for cos(∠O), we get: cos(∠O) = -0.7063cos(∠O) = -0.7063.

Therefore, ∠O = cos^-1(-0.7063) ≈ 59.5° (to the nearest 10th of a degree). Hence, the measure of ∠O in the triangle δMNO is 59.5°.

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The position function X (t) of a particle moving along an X axis is X = 4,0 - 6,0t^(2), with X in in meters and t in seconds. At what negative time and positive time does the particle pass through the origin?

Answers

The given position function of a particle moving along an X-axis is X = 4,0 - 6,0t^2with X in meters and t in seconds. To find the negative time and positive time at which the particle passes through the origin, we will set X = 0.

Given, position function of a particle X (t) = 4.0 - 6.0t^2.

For the particle to pass through the origin, X (t) must be 0.X (t) = 4.0 - 6.0t^2 = 0Solving for t, we get; t^2 = 4/3t = ± √(4/3)t = (2/√3) and t = -(2/√3).

Since time cannot be negative, negative time is not possible.

The particle passes through the origin at t = (2/√3) seconds or approximately 1.1547 seconds.

The negative time is not possible because time cannot be negative.

So, the particle passes through the origin at t = (2/√3) seconds or approximately 1.1547 seconds.

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Resonance A mass of one slug is hanging at rest on a spring whose constant is 12 lb/ft. At time = 0 an external force of f(t) =16 cos o t lb is applied to the system. (a)What is the frequency of the forcing function that is in resonance with the system? (b)Find the equation of motion of the mass with resonance.

Answers

a. The frequency of the forcing function that is in resonance with the system is 3.46 rad/s. b. The equation of motion of the mass with resonance is: m[d²x/dt²] + 12x = 16cos(3.46t)

(a) The frequency of the forcing function that is in resonance with the system is the same as the natural frequency of the system, which is:

ω = [tex]\sqrt{k}[/tex] / m

where m is the mass of the object (in slugs) and k is the spring constant (in pounds per foot).

ω = 3.46 rad/s

Therefore, the frequency of the forcing function that is in resonance with the system is 3.46 rad/s.

(b)The equation of motion of the mass is given by the differential equation:

m[d²x/dt²] + kx = f(t)

where x is the displacement of the mass, m is the mass of the object, k is the spring constant, and f(t) is the external force applied to the system.

We substitute the values given in the problem:

m[d²x/dt²] + 12x = 16cos(ωt)

To find the equation of motion of the mass with resonance, we assume that the forcing function is in resonance with the system.

This means that the frequency of the forcing function is the same as the natural frequency of the system.

ω = [tex]\sqrt{k}[/tex]/m = 3.46 rad/s

Substituting this value in the equation of motion, we get:

m[d²x/dt²] + 12x = 16cos(3.46t)

We can solve this differential equation to get the equation of motion of the mass with resonance.

However, since the question only asks for the equation of motion, we can stop here. The equation of motion of the mass with resonance is:

m[d²x/dt²] + 12x = 16cos(3.46t)

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A dog walks at 6 m/s on the deck of a boat that is travelling
at 7.6 m/s with respect to the water.
What is the velocity of the dog with respect to the water if it
walks towards the bow (front)?
What

Answers

Velocity when the When the dog walks towards the

Bow: 13.6 m/s forward.

Stern: 1.6 m/s backward.

Starboard: 6 m/s to the right.

When the dog walks towards the bow (front) of the boat, its velocity with respect to the water is the vector sum of its velocity on the deck and the velocity of the boat. Since the boat is traveling forward at 7.6 m/s and the dog is walking at 6 m/s in the same direction, the resulting velocity is the sum of these two velocities: 7.6 m/s + 6 m/s = 13.6 m/s forward.

When the dog walks towards the stern (back) of the boat, its velocity with respect to the water is the difference between the velocity of the boat and its own velocity on the deck: 7.6 m/s - 6 m/s = 1.6 m/s backward.

When the dog walks towards the starboard (right) side of the boat, its velocity with respect to the water remains unchanged at 6 m/s to the right, as it is not affected by the boat's motion in that direction.

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the complete question is:

A dog walks at 6 m/s on the deck of a boat that is travelling at 7.6 m/s with respect to the water.

What is the velocity of the dog with respect to the water if it walks towards the bow (front)?

What is the velocity of the dog with respect to the water if it walks towards the stern (back)?

What is the velocity of the dog with respect to the water if it walks towards the starboard (right)?

A "7805" is a (select best answer) o power IC. super capacitor that dramatically reduces the ripple voltage in a power supply, linear voltage regulator. switching voltage regulator that reduces the ripple voltage in a power supply, low drop-out voltage regulator (LDO) that reduces the ripple voltage in a power supply A power supply has a no-load output voltage of 5 V. A load is connected to the power supply and the output voltage drops to 4.9 V. What is the magnitude of the change in output voltage in percent? 2.041% 2% Need additional information Save Consider a linear power supply consisting of a transformer, 4-diode bridge rectifier, smoothing capacitor, and linear voltage regulator. The regulator has a 65 dB ripple rejection ratio. The ripple voltage at the smoothing capacitor is 350 mV. The output ripple voltage is Need more information. about 0.11 muV. about 200,uV. about 5.4 mV

Answers

Output ripple voltage is about 5.4 mV. A "7805" is a linear voltage regulator. Linear voltage regulators are DC to DC voltage converters that reduce the DC voltage. They accept an input voltage and regulate it to a fixed output voltage. This output voltage is highly regulated, and it's referred to as a clean voltage.

Linear voltage regulators function by reducing the voltage between the input and output of the regulator to keep the output voltage constant.

A power supply has a no-load output voltage of 5 V. A load is connected to the power supply and the output voltage drops to 4.9 V.

The magnitude of the change in output voltage in percent is:2%.

Given, no-load output voltage of 5 V and output voltage drops to 4.9 V when load is connected.

Output voltage ripple can be calculated using the formula;

Output voltage ripple = (Ripple factor × VDC) / (Load resistance).

Ripple factor = √(VRMS / VDC).

Ripple rejection ratio is given by,RRR = 20 log (Vout with ripple / Vout without ripple)

dB is the unit of measurement used for the ripple rejection ratio.

Rearranging the equation we get,

Vout with ripple / Vout without ripple = antilog (RRR/20).

We can calculate the Vout with ripple using the given ripple voltage at the smoothing capacitor.

Output voltage with ripple = VDC ± Vripple

where, VDC = DC voltage, V ripple = Ripple voltage

Vripple = 350 mV

RRR = 65 dB

Vout with ripple / Vout without ripple = antilog (65/20)= 1778.27941

Vout with ripple = 1778.27941 × Vout without ripple

= 1778.27941 × 5 V

= 8891.39706 mV

= 8.89139706 V

Output voltage with ripple = VDC ± V ripple

= 8.89139706 mV ± 350 mV

= 5.2 mV (approx)

Output ripple voltage is about 5.4 mV.

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It takes Ben 1s to lift a 2-kg box 2-m above the ground. Calculate the power used in lifting the box. O 3.9 J 1.96 J 39 J O 19.6 J

Answers

The power used in lifting the box is 19.6 J.

Power is defined as the rate at which work is done or energy is transferred. It is calculated using the formula:

Power = Work / Time

In this case, the work done is equal to the gravitational potential energy gained by lifting the box:

Work = mgh

where m is the mass (2 kg), g is the acceleration due to gravity (9.8 m/s^2), and h is the height (2 m).

Work = 2 kg * 9.8 m/s^2 * 2 m = 39.2 J

Since it takes Ben 1 second to lift the box, the time is 1 second.

Power = 39.2 J / 1 s = 39.2 J/s

Therefore, the power used in lifting the box is 39.2 J/s, which is equivalent to 19.6 J.

The power used by Ben in lifting the 2-kg box to a height of 2 m is 19.6 J.

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Two 1.0 kg masses are 1.0 m apart on a frictionless table. Each has +1.5 μ
C of charge.
a) What is the magnitude of the electric force on one of the masses?
b) What is the initial acceleration of each mass if they are released and allowed to move?

Answers

The magnitude of the electric force acting on one of the masses is [tex]5.67 * 10^{-8}[/tex] N. The magnitude of the initial acceleration of each mass is 9.8 m/s², and the direction is towards the other mass.

Given that two 1.0 kg masses are 1.0 m apart on a frictionless table. Each has +1.5 μC of charge. We need to find the magnitude of the electric force on one of the masses and the initial acceleration of each mass if they are released and allowed to move. a) Magnitude of the electric force on one of the masses

The electric force between two charged particles can be calculated using Coulomb's law. The electric force acting on one of the masses is given by the following formula:

[tex]F = \frac{1}{4πε₀} \frac{q1q2}{r^{2}}[/tex]

Where, q₁ = Charge on first particle

q₂ = Charge on the second particle r = Distance between the charges

ε₀ = Permittivity of free space

Mass of each object, m = 1.0 kg, Charge on each object, q = +1.5 μC = [tex]1.5 * 10^{-6}[/tex] C Distance between the objects, r = 1.0 m.

Permittivity of free space, [tex]ε₀ = 8.85 * 10^{-12}[/tex]C²/N·m²

Substitute the given values in the Coulomb's law,

[tex]F = \frac{1}{4πε₀} \frac{q1q2}{r^{2}}[/tex]

[tex]F = \frac{1}{4πε₀} \frac{(1.5 * 10^{-6}) *(1.5* 10^{-6})}{1^{2}}[/tex]

[tex]F = \frac{1}{4πε₀} \frac{(2.25 * 10^{-12})}{1}[/tex]/1

F =  [tex]5.67 * 10^{-8}[/tex] N.

Thus, the magnitude of the electric force acting on one of the masses is [tex]5.67 * 10^{-8}[/tex] N. b) Initial acceleration of each mass if they are released and allowed to move.

The gravitational force acting on each of the masses is given by,

Fg = mgFg

= 1.0 × 9.8

Fg = 9.8 N. The net force acting on each of the masses is given by,

Fnet = ma From Newton's second law of motion,

Net force = (mass) × (acceleration)

Fnet = Fe - Fg.

Where, Fe = Electric force, Fg = Gravitational force. Substitute the given values,

Fnet = Fe - FgFnet

= [tex]5.67 * 10^{-8}[/tex] - 9.8

Fnet = -9.8 N

As the net force is acting in the opposite direction to the gravitational force, the initial acceleration of the mass will be negative. The magnitude of the initial acceleration of each mass is 9.8 m/s², and the direction is towards the other mass.

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A 310-g air track cart is traveling at 1.25 m/s and a 260-g cart traveling in the opposite direction at 1.33 m/s. What is the speed of the center of mass of the two carts? a) 1.47 m/s b) 0.131 m/s c) 2.80 m/s d) 1.29 m/s e) 0.0732 m/s

Answers

The speed of the center of mass of the two carts is approximately 0.131 m/s. Therefore, the correct option is (b) 0.131 m/s.

Let's calculate the velocity of the center of mass of the system. Let's use the conservation of momentum which states that the total momentum of an isolated system remains constant: total momentum before = total momentum after (in absence of external forces)Let's denote the velocity of the center of mass as Vcm. The momentum of each cart is:

p1 = m1 * v1p2 = m2 * v2

The total momentum before the collision is:p1 + p2

Let's add the momentum of the carts: p1 + p2 = m1 * v1 + m2 * v2

Let's isolate the velocity of the center of mass and divide both sides by the total mass of the system:m1 * v1 + m2 * v2 = M * Vcm Vcm = (m1 * v1 + m2 * v2) / (m1 + m2) where: M = m1 + m2is the total mass of the system

Substituting the values:m1 = 0.31 kgv1 = 1.25 m/sm2 = 0.26 kgv2 = -1.33 m/sVcm = (0.31 kg * 1.25 m/s + 0.26 kg * (-1.33 m/s)) / (0.31 kg + 0.26 kg) ≈ 0.131 m/s

Therefore, the correct option is (b) 0.131 m/s.

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In a vacuum (empty space), the speed of ultraviolet light is faster than the speed of a radio wave.
True/False

Answers

Statement : In a vacuum (empty space), the speed of ultraviolet light is faster than the speed of a radio wave, is False.

In a vacuum (empty space), all electromagnetic waves, including ultraviolet light and radio waves, travel at the same speed, which is the speed of light in vacuum, denoted by 'c'. According to the theory of relativity, the speed of light in vacuum is approximately 299,792,458 meters per second (or about 186,282 miles per second).
Therefore, the statement that "the speed of ultraviolet light is faster than the speed of a radio wave in a vacuum" is false. Both ultraviolet light and radio waves travel at the same speed in a vacuum.

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When testing gas pumps for accuracy, fuel-quality enforcement specialists tested pumps and found that 1341 of them were not pumping accurately (within 3.3 oz when 5 gal is pumped), and 5650 pumps were accurate. Use a 0.01 significance level to test the claim of an industry representative that less than 20% of the pumps are inaccurate. Use the P-value method and use the normal distribution as an approximation to the binomial distribution. 1.Identify the null hypothesis and alternative hypothesis. 2. Test statists z= 3. p-value= 4.Because the P-value is less than less than greater than the significance level, fail to reject fail to reject reject the null hypothesis. There is insufficient sufficient insufficient evidence support the claim that less than 20% of the pumps are inaccurate

Answers

When testing gas pumps for accuracy, fuel-quality enforcement specialists tested pumps and found that 1341 of them were not pumping accurately (within 3.3 oz when 5 gal is pumped), and 5650 pumps were accurate. Use a 0.01 significance level to test the claim of an industry representative that less than 20% of the pumps are inaccurate. Use the P-value method and use the normal distribution as an approximation to the binomial distribution.The null hypothesis and alternative hypothesis:The null hypothesis is that less than 20% of the pumps are inaccurate, and the alternative hypothesis is that more than or equal to 20% of the pumps are inaccurate.The test statistics z and p-value:The sample proportion of pumps that are inaccurate can be calculated by dividing the number of pumps that are inaccurate by the total number of pumps, which is: p = 1341 / (1341 + 5650) = 0.1913The sample size n is 6991. Since the sample size is large, we can use the normal distribution to approximate the binomial distribution of the sample proportion. The test statistic z is calculated as: z = (p - P0) / sqrt(P0(1 - P0) / n) = (0.1913 - 0.2) / sqrt(0.2(1 - 0.2) / 6991) = -3.54The p-value can be calculated as the area to the right of the test statistic z under the standard normal distribution. The p-value is less than 0.0001, which means that the probability of observing a sample proportion as extreme as 0.1913 or more extreme, assuming that the null hypothesis is true, is less than 0.0001.Because the p-value is less than the significance level of 0.01, we reject the null hypothesis and conclude that there is sufficient evidence to support the claim that more than or equal to 20% of the pumps are inaccurate. Therefore, the industry representative's claim that less than 20% of the pumps are inaccurate is not supported by the data. Answer: 1. Null hypothesis: The null hypothesis is that less than 20% of the pumps are inaccurate Alternative hypothesis: The alternative hypothesis is that more than or equal to 20% of the pumps are inaccurate 2. Test statistics z= -3.54 P-value= <0.0001 3. Because the p-value is less than the significance level of 0.01, we reject the null hypothesis and conclude that there is sufficient evidence to support the claim that more than or equal to 20% of the pumps are inaccurate. Therefore, the industry representative's claim that less than 20% of the pumps are inaccurate is not supported by the data.

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1. Null hypothesis: H0: p ≥ 0.20; Alternative hypothesis: Ha: p < 0.20

2. Test statistic: z = -12.41 (approx)

3. P-value: P(z < -12.41) < 0.0001 (approx)

4. Because the P-value is less than the significance level, reject the null hypothesis. There is sufficient evidence to support the claim that less than 20% of the pumps are inaccurate.

1. Null hypothesis and alternative hypothesisH0: p ≥ 0.20 (The proportion of pumps that are not pumping accurately is greater than or equal to 20%)Ha: p < 0.20 (The proportion of pumps that are not pumping accurately is less than 20%)where p is the true proportion of pumps that are not pumping accurately.

2. Test statistic: z = (1341 - 0.20 × 6991) / sqrt (0.20 × 0.80 × 6991) = -12.41 (approx)Note: 6991 pumps were tested (1341 + 5650). The null proportion is 0.20. The expected frequency of inaccurate pumps is 0.20 × 6991. The expected frequency of accurate pumps is 0.80 × 6991.

3. P-value: P-value = P (z < -12.41) < 0.0001 (approx) Note: We use the normal distribution as an approximation to the binomial distribution. The continuity correction was not used.

4. Because the P-value is less than the significance level, reject the null hypothesis. There is sufficient evidence to support the claim that less than 20% of the pumps are inaccurate. The industry representative's claim is not valid. The fuel-quality enforcement specialists' findings suggest that the proportion of inaccurate pumps is significantly less than 20%.

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A speedboat accelerates uniformly from rest at 3.0 m/s. The distance the speedboat will travel between 4.0 s and 6.0 s is m. (Record your two-digit answer in the answer space.)

Answers

The distance the speedboat will travel between 4.0 s and 6.0 s is 12 m.

The speedboat starts from rest and undergoes uniform acceleration at a rate of 3.0 m/s². We need to find the distance traveled by the speedboat between 4.0 s and 6.0 s.

To calculate the distance traveled, we can use the kinematic equation:

d = v₀t + (1/2)at²

where d is the distance, v₀ is the initial velocity, t is the time, and a is the acceleration.

Given that the initial velocity v₀ is 0 m/s, the time interval is 2.0 s (6.0 s - 4.0 s), and the acceleration a is 3.0 m/s², we can substitute these values into the equation:

d = 0 + (1/2)(3.0 m/s²)(2.0 s)²

d = (1/2)(3.0 m/s²)(4.0 s²)

d = 6.0 m

Therefore, the distance the speedboat will travel between 4.0 s and 6.0 s is 12 m. The speedboat undergoes constant acceleration, and by using the kinematic equation, we find that the distance traveled is 6.0 m. This represents the total displacement of the speedboat within the given time interval.

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"A charged particle of charge q moves perpendicular to a uniform
magnetic field whose magnetic flux density has magnitude b Find the
magnitude of q if b is 0.4T The speed of the particle is 8m/s and
the magnitude of the force on it is 96mN (milli newton)

Answers

The magnitude of the charge (q) of the particle is approximately 0.3 Coulombs.

To find the magnitude of the charge (q) of a charged particle moving perpendicular to a uniform magnetic field, we can use the formula for the magnetic force on a charged particle:

F = qvB,

where F is the force, q is the charge of the particle, v is the speed of the particle, and B is the magnetic flux density.

Magnetic flux density (B): 0.4 T

Speed of the particle (v): 8 m/s

Magnitude of the force (F): 96 mN (converted to N)

We can rearrange the formula to solve for q:

q = F / (vB).

Substituting the given values:

q = (96 x 10^-3 N) / ((8 m/s)(0.4 T)).

Simplifying the expression, we find:

q ≈ 0.3 C.

Therefore, the magnitude of the charge (q) of the particle is approximately 0.3 Coulombs.

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Microwave ovens rotate at a rate of about 5.2 rev/min.
What is this in revolutions per second?
What is the angular velocity of this microwave in radians per second?
A truck with 0.420 m radius tires travels at 38 m/s.
What is the angular velocity of the rotating tires in radians per second?
What is the angular velocity of the rotating tires in rev/min?

Answers

Angular velocity of truck in rad/min = 90.47 × 60/2π= 861.72 rev/min (Approximately)

Therefore, The answers are, Rev/s of microwave ovens = 0.08667 (Approximately), Angular velocity of microwave oven in rad/s = 0.546 (Approximately), Angular velocity of truck in rad/s = 90.47 (Approximately), Angular velocity of truck in rev/min = 861.72 (Approximately)

Given: Rev/min of microwave ovens = 5.2 rev/min

Rad = 180/π deg

Rad/s = 180/π deg/s1.

To find the Revolutions per second (rev/s) of the microwave oven,

We have given that,

Rev/min of microwave ovens  =5.2rev/min

Therefore, Rev/s of microwave ovens = 5.2/60 = 0.08667 rev/s (Approximately)

2. To find the angular velocity (ω) in radians per second (rad/s) of the microwave oven,

We know that, 1 revolution = 2π rad

Therefore,Angular velocity of microwave oven in

rad/s = 5.2 × 2π/60

= 0.546 rad/s (Approximately)

3. To find the angular velocity (ω) in radians per second (rad/s) of the truck,

Given,R = 0.420 m

V = 38 m/s.

Speed of rotation of the tires[tex](v) = Rω[/tex]

ω = v/R

= 38/0.420

= 90.47 rad/s (Approximately)

4. To find the angular velocity (ω) in Revolutions per minute (rev/min) of the truck, We know that, 1 revolution = 2π rad

Therefore, Angular velocity of truck in rad/min = 90.47 × 60/2π = 861.72 rev/min

Therefore, The answers are,Rev/s of microwave ovens = 0.08667 Angular velocity of microwave oven in rad/s = 0.546, Angular velocity of truck in rad/s = 90.47 , Angular velocity of truck in rev/min = 861.72

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Determine (a) the principal stresses and (b) the maximum in-plane shear stress and average normal stress. Specify the orientation of the element in each case 10 MP 20 MPa

Answers

(a) The principal stresses are 10 MPa and 20 MPa.

(b) The maximum in-plane shear stress and average normal stress need further information to be determined.

To determine the principal stresses, we need to know the orientation of the element in question. The principal stresses are the maximum and minimum normal stresses experienced by the element. However, without knowing the orientation, we cannot calculate the in-plane shear stress or average normal stress.

These values depend on the orientation of the element's surface relative to the applied forces. Therefore, additional information is required to calculate the maximum in-plane shear stress and average normal stress.

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The potential energy of a +6.00 x 10-6 C charge
decreases from 0.06 J to 0.02 J when it is moved from point A to
point B. What is the change in electric potential between these two
points?

Answers

The change in electric potential between points A and B, as a +6.00 x 10^-6 C charge moves, is approximately 6.67 x 10^3 volts. Electric potential is the work done per unit charge in an electric field.

The electric potential difference, also known as voltage, is defined as the change in electric potential energy per unit charge between two points. Mathematically, it can be calculated using the formula:

ΔV = ΔPE / q

Where ΔV represents the change in electric potential, ΔPE represents the change in potential energy, and q represents the charge.

In this case, the charge q is given as +6.00 x 10^-6 C.

The change in potential energy ΔPE is the difference between the initial potential energy (0.06 J) and the final potential energy (0.02 J), which is 0.06 J - 0.02 J = 0.04 J.

Now, we can calculate the change in electric potential:

ΔV = ΔPE / q

ΔV = 0.04 J / (+6.00 x 10^-6 C)

ΔV ≈ 6.67 x 10^3 V

Therefore, the change in electric potential between points A and B is approximately 6.67 x 10^3 volts.

It's important to note that electric potential is a scalar quantity and is measured in volts (V). It represents the amount of work done to move a unit positive charge from one point to another in an electric field.

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If the net torque applied to an object is constant and the rotational inertia is doubled, what happens to the angular acceleration?
a) doubles
b) half is reduced
c) it does not change
d) a quarter is reduced

Answers

If the net torque applied to an object is constant and the rotational inertia is doubled, the angular acceleration will be reduced by half.

This can be explained using Newton's second law for rotation, which states that the net torque applied to an object is equal to the product of its rotational inertia (I) and its angular acceleration (α): τ = I * α If the net torque remains constant, but the rotational inertia (I) is doubled, the equation becomes: τ = 2I * α. Since τ is constant, if I is doubled, α must be halved in order to maintain the equality. Therefore, the angular acceleration is reduced by half. So, the correct answer is: b) Half is reduced.

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Q11. A 5 cm long solenoid of 12 turns carriers a current of 4 A. What is the magnetic field at its center? a) 301.6 G b) 6.03 G (C) 12.1 G d) 0.121 G

Answers

The magnetic field at the center of a 5 cm long solenoid carrying a current of 4 A with 12 turns is 301.6 G.

A solenoid refers to a coil with several turns of wire. Magnetic field is generated within the solenoid when electric current flows through it. The formula to determine the magnetic field at the center of the solenoid is given as;B = (μ * n * I) / L Where B is the magnetic fieldμ is the permeability of free s pace is the current is the number of turns L is the length of the solenoid Substituting the given values; B = (μ * n * I) / L = (4π * 10⁻⁷ T*m/A * 12 * 4A) / 0.05m = 301.6 G

therefore, the magnetic field at the center of the solenoid is 301.6 G.

Attractive Field is the district around an attractive material or a moving electric charge inside which the power of attraction acts. A pictorial portrayal of the attractive field which depicts how an attractive power is circulated inside and around an attractive material.

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You are standing 0.50 m in front of a lens that projects an image of you onto a wall 3.0 m on the other side of the lens. What is the focal length of the lens? What is the magnification?

Answers

The image distance, the object distance, and the focal length are related by the lens equation which is given as 1/f = 1/o + 1/i. The focal length, object distance, and image distance of a lens system can be determined using this equation.

The magnification of the lens can also be determined. The problem requires determining the focal length of a lens given the object distance and image distance. Given values include; the object distance, u = 0.50 m and the image distance, v = 3.0 m. Then we can substitute the given values into the lens formula as follows;

1/f = 1/o + 1/i

= 1/0.5 + 1/3

= 1.67/f

= 1.67f

= 1/1.67

= 0.6 m

The focal length of the lens is 0.6 m. To determine the magnification, we can use the magnification equation, m = -v/u. Therefore, the magnification is;

m = -v/u

= -3.0/0.5

= -6.

The magnification is -6. Therefore, the focal length of the lens is 0.6 m and the magnification is -6.

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light of wavelength 646 nm falls on a double slit, and the first bright fringe of the interference pattern is seen at an angle of 13.0° with the horizontal. find the separation between the slits

Answers

The separation between the slits is 2449 nm for light of wavelength 646 nm falls on a double slit, and the first bright fringe of the interference pattern is seen at an angle of 13.0° with the horizontal

Given that a light of wavelength 646 nm falls on a double slit, and the first bright fringe of the interference pattern is seen at an angle of 13.0° with the horizontal. We need to calculate the separation between the slits. Let d be the separation between the slits, D be the distance between the screen and the double slits and θ be the angle at which the first bright fringe is observed.

Using the formula for the fringe width:$$w = \frac{\lambda}{d}$$where λ is the wavelength of the light used. The distance between the central maximum and the first bright fringe can be calculated by the formula:$$d\,\sin\theta = w$$Substituting the values in the above formulas, we get$$w = \frac{646 \ nm}{1 \ slit \ (1)} = 646 \ nm$$$$d\,\sin 13^\circ = 646 \ nm$$$$d = \frac{646 \ nm}{\sin 13^\circ}$$$$\boxed{d = 2449 \ nm}$$Therefore, the separation between the slits is 2449 nm.

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A bag containing 0°C ice is much more effective in absorbing energy than one containing the same amount of 0°C water.

a) What heat transfer, in joules, is necessary to raise the temperature of 0.75 kg of water (c = 4186 J/(kg⋅°C)) from 0°C to 30.0°C?

Qw = J

b) How much heat transfer, in joules, is required to first melt 0.75 kg of 0°C ice (Lf = 334 kJ/kg) and then raise its temperature from 0°C to 30°C?

Qtot = J

Answers

a) Qw = 94335 J

b) Qtot = 344835 J

What is the required heat transfer in joules to raise the temperature of 0.75 kg of water from 0°C to 30.0°C, and how much heat transfer in joules is needed to melt 0.75 kg of 0°C ice and raise its temperature to 30°C? To calculate the heat transfer necessary to raise the temperature of water, we can use the formula:

Qw = mcΔT

Qw is the heat transfer in joules,

m is the mass of water in kilograms (0.75 kg in this case),

c is the specific heat capacity of water (4186 J/(kg⋅°C)),

ΔT is the change in temperature (30.0°C - 0°C = 30.0°C).

Substituting the values into the formula, we have:

Qw = (0.75 kg) × (4186 J/(kg⋅°C)) × (30.0°C) = 94335 J

Therefore, the heat transfer necessary to raise the temperature of 0.75 kg of water from 0°C to 30.0°C is 94335 joules.

To calculate the total heat transfer required to melt ice and then raise its temperature, we need to consider two steps:

First, we calculate the heat transfer required to melt the ice:

Qmelt = mLf

Where:

Qmelt is the heat transfer for melting,

m is the mass of ice in kilograms (0.75 kg in this case),

Lf is the latent heat of fusion for ice (334 kJ/kg = 334000 J/kg).

Substituting the values into the formula, we have:

Qmelt = (0.75 kg) × (334000 J/kg) = 250500 J

Next, we calculate the heat transfer required to raise the temperature of water from 0°C to 30.0°C, as calculated in part a:

Qraise = Qw = 94335 J

The total heat transfer is the sum of the heat transfers for melting and raising the temperature

Qtot = Qmelt + Qraise = 250500 J + 94335 J = 344835 J

Therefore, the total heat transfer required to first melt 0.75 kg of 0°C ice and then raise its temperature from 0°C to 30.0°C is 344835 joules.

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The 2-in.-diameter drive shaft AB on the helicopter is subjected to an axial tension of 10 000 lb and a torque of 300 lb. ft. Determine the principal stresses and the maximum in-plane shear stress that act at a point on the surface of the shaft AB. Full credit will be given for problems that list assumptions, show an appropriate free body diagram of the pipe, and show work to solve equilibrium equations.

Answers

The maximum in-plane shear stress acting at the surface of the drive shaft is 67.64 x 10⁴ lb/ft².

The ratio of the tangential force to the cross-sectional area of the surface it is acting on is known as the shear stress.

Diameter of the drive shaft, d = 2 in = 0.167 ft

The tension acting on the drive shaft, T = 10⁴ lb

The torque acting on the drive shaft, τ = 300 lb.ft

The expression for the stress acting on the drive shaft is given by,

σ = T/A

σ = 10⁴/(πd²/4)

σ = 4 x 10⁴/3.14 x (0.167)²

σ = 45.67 x 10⁴ lb/ft²

The expression for the shear stress is given by,

τ' = T/J

τ' = 10⁴x 1/(π/2 x 1)

τ' = 10⁴/1.57

τ' = 63.67 x 10⁴ lb/ft²

The expression for the principal shear stress is given by,

σ₍₁,₂₎ = σₓ + σy ± √{[(σₓ - σy)/2]² + (τ')²}

σ₍₁,₂₎ = 45.67 x 10⁴+ 0 ± √[(45.67 x 10⁴/2)² + (63.67 x 10⁴)²]

σ₍₁,₂₎ = 45.67 x 10⁴ ± 67.64 x 10⁴

So,

σ₁ = -21.97 x 10⁴ lb/ft²

σ₂ = 113.31 x 10⁴ lb/ft²

Therefore, the maximum in-plane shear stress acting at the surface of the drive shaft is given by,

τ(max) = √{[(σₓ - σy)/2]² + (τ')²}

τ(max) = √[(45.67 x 10⁴/2)² + (63.67 x 10⁴)²]

τ(max) = 67.64 x 10⁴ lb/ft²

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how many protons zzz and how many neutrons nnn are there in a nucleus of the most common isotope of rubidium, 8537rb3785rb ?

Answers

Rubidium-85 has 37 protons and 48 neutrons in its nucleus.

The most common isotope of Rubidium is Rubidium-85 (85Rb). The notation for Rubidium-85 is:8537Rb85The number 85 represents the atomic mass number of Rubidium and the number 37 represents its atomic number. The atomic mass number represents the total number of protons and neutrons in the nucleus of an atom.

                   Therefore, in Rubidium-85, there are 85 nucleons (protons and neutrons) in its nucleus. Since the atomic number of Rubidium is 37, it has 37 protons in its nucleus, which also means that it has 37 electrons orbiting its nucleus.

                                  The difference between the atomic mass number and the atomic number gives us the number of neutrons in the nucleus of the atom. The atomic mass of Rubidium-85 is 84.9118 u.

                              Therefore, the number of neutrons in Rubidium-85 is:nnn = Atomic mass number - Atomic number = 85 - 37 = 48

Therefore, the most common isotope of Rubidium, 85Rb, has 37 protons and 48 neutrons in its nucleus.

Number of Protons (atomic number) = 37Number of Neutrons = Atomic mass number - Atomic number = 85 - 37 = 48

Therefore, Rubidium-85 has 37 protons and 48 neutrons in its nucleus.

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All of these are types of constraints that could impact structure of the project network the distance between any two pitches on a musical scale is called a(n) _____ 1C.) Provide a graph of what economists expect will happen in terms of economic profits in the long run to farmers operating in a perfectly competitive market. arrange the following ions in order of increasing ionic radius: potassium ion, chloride ion, phosphide ion, calcium ion. QUESTION 1 are associations between firms that are based on contracts and do not involve the sharing of ownership. a. Non-equity based alliances b. Strategic investments O c. Cross-shareholdings O d. Joint ventures QUESTION 2 Which of the following is a disadvantage of alliances? a. Lack of learning race b. Partner opportunism c. Value as real options O d. Scale up and scale down of investments QUESTION 3 Which of the following occurs in the uncounling stage of an alliance dissolution? Click Save and Submit to save and submit. Click Save All Answers to save all answers. what kinds of plants are grasses and grain crops such as corn and wheat? The annual interest rate is 4%. 1) What is the present value (PV) of $1,000 that you'll receive in 14 years? 2) If you invest the amount found in part 1 now, how much will you have after 14 years? 3) If you invest $577.48 now, how much will you have after 7 years? 4) If you invest the amount found in part 3 for another 7 years, how much will you have at the end? list all of the intermolecular forces present in the following molecules: a.) ch3ch2oh Accounting 301 Ch 19 - Deferred Tax Take Home Quiz Name 1. The following is available for the taxable and pretax GAAP financial income of Film Company for 2010: Interest on municipal securities included in net income in 2010 was $5,000. Depreciation recognized in the tax return exceeded that in the financial statement income statement by $100,000. This temporary difference will reverse evenly during 2011 and 2012. The company has accrued revenue of $10,000 in 2010 for financial reporting purposes, however the tax laws allow them to deferred showing this as a taxable revenue until 2011 when the cash will be collected. Film's pretax GAAP financial net income for 2010 was $300,000 and the company's income tax rate was 35%. This rate is scheduled to change to 40% for 2011 and 2012. A. Prepare below a deferred income tax schedule for 2010. Show all timing differences in the appropriate year's column. 2010 2011 2012 B. Prepare the general journal entry to accrue income taxes for 2010. Assume there was no prior balance in the company's deferred income tax account. 2. In 2011 the company had a downturn and they had a ($200,000) GAAP financial accounting loss for that year. The company had no new originating timing differences during 2011, but they did experience the two timing reversals that were projected when completing the 2010 deferred tax schedule (see question 1). Assume the company will have adequate operating income in 2012 to cover any excess carryforwards that cannot be absorbed on the deferred tax schedule. A. Prepare below a deferred income tax schedule for 2011. 2011 2012 B. Prepare the general journal entry to accrue income taxes for 2011. 1. A Scrum Master could be compared to:Select one:a.A Sheep Dogb.A Pigc.A Chickend.A Camel2. Who ensures that work is aligned with leadership's direction and Product Vision?Select one:a.The Product Ownerb.The Scrum Masterc.The Teamd.An Agile Coach types of tigers in Melghat A 1500 kg car skids to a halt on a wet road where Mk = 0.46.How fast was the car traveling if it leaves 60-m-long skid marks? find the area of the region between the graphs of ()=11 8 and ()=2 2 2 over [0,2].