A curve with a 130 m radius on a level road is banked at the correct angle for a speed of 20 m/s.If an automobile rounds this curve at 30 m/s, what is the minimum coefficient of static friction between tires and road needed to prevent skidding?

The average force on the puck by the stick is 448 N

To find the average force on the hockey puck, we can use the impulse-momentum theorem:

Impulse = Change in momentum

The impulse on the puck can be calculated as:

Impulse = mass x change in velocity
Impulse = 0.16 kg x (9 m/s - (-5 m/s))
Impulse = 0.16 kg x 14 m/s
Impulse = 2.24 N*s

The change in velocity is negative because the puck is moving in the opposite direction after the impact.

The impulse on the puck is equal to the average force multiplied by the time of contact:

Impulse = average force x time
2.24 N*s = average force x 0.005 s
average force = 2.24 N*s / 0.005 s
average force = 448 N

Therefore, the average force is 448 N.

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The value of fmax that gives an impulse of 7.2 ns is approximately 1 Hz (one hertz).

The relationship between the impulse (I), the force (F), and the time (t) is given by the equation I = F x t.

To discover the force (F), we have to modify the equation to F = I / t.

Substituting the given values, we have:

F = I / t = 1 / (fmax) / t

where I = 7.2 ns and t = 1 ns.

In this manner:

F = 7.2 ns / 1 ns / fmax

Simplifying the expression:

F = 7.2 / fmax

To discover the value of fmax that gives a motivation of 7.2 ns, we got to fathom for fmax:

fmax = 7.2 / F

Substituting the over value for F, we get:

fmax = 7.2 / (7.2 / fmax) = fmax

therefore, the value of fmax that gives a force of 7.2 ns is 1 Hz (one hertz).

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When batteries are connected in parallel, they maintain the same voltage level, but their current capacity increases. This means that the batteries can provide more current to the circuit without increasing the voltage. This can be advantageous in applications where a high current is required, such as in powering electric motors or high-power LEDs. Additionally, connecting batteries in parallel can increase the overall reliability of the system, as if one battery fails, the others can still provide power to the circuit.

Connecting batteries in parallel does not increase the emf. A high-current device connected to two batteries in parallel can draw currents from both batteries.

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The density of the unknown liquid is 997 kg/m³.

To Calculate the volume of the solid aluminum cylinder using the weight and density provided.
Formula: Volume = Weight / (Density * gravity), where gravity is approximately 9.81 m/s².
Volume = 0.66 N / (2700 kg/m³ * 9.81 m/s²) ≈ 2.45 x 10⁻⁵ m³
Calculate the buoyant force acting on the cylinder when immersed in the liquid.
Buoyant force = Weight in air - Apparent weight in liquid
Buoyant force = 0.66 N - 0.354 N = 0.306 N
Use the buoyant force to find the density of the unknown liquid.
Formula: Buoyant force = Liquid density * Volume * gravity
Liquid density = Buoyant force / (Volume * gravity)
Liquid density = 0.306 N / (2.45 x 10⁻⁵ m³ * 9.81 m/s²) ≈ 997 kg/m³

Hence,  Using this buoyant force, we determined the density of the unknown liquid to be 997 kg/m³.

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The magnitude of the current density j in the copper wire is approximately 6.84 * 10^{4} A/m^{2}.

To determine the magnitude of the current density j in the copper wire, we need to use the equation:
j = nev
where n is the electron number density, e is the charge of an electron, and v is the velocity of the electrons.
From equation e5.8, we know that the electron number density for copper is approximately 8.5 * 10^{28} electrons/m^{3}.
The velocity of the electrons is given as 0.5 mm/s, which is equivalent to 5 *10^{-4 }m/s.
The charge of an electron is 1.602 * 10^{-19} C.
Substituting these values into the equation, we get:
j = (8.5 * 10^{28} electrons/m^3) * (1.602 * 10^{-19} C/electron) * (5 * 10^{-4} m/s)
j = 6.84 * 10^{4 }A/m^{2}
Therefore, the magnitude of the current density j in the copper wire is approximately 6.84 * 10^{4} A/m^{2}.

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Sure! Volume defects refer to irregularities or imperfections that occur within the volume of a material. These defects can be caused by a variety of factors, including impurities, uneven cooling or solidification, and mechanical stresses.

One common example of a volume defect is porosity, which occurs when small voids or pockets of gas become trapped within a material during its formation. Another example is shrinkage, which happens when a material undergoes uneven cooling or solidification, causing it to contract and create voids or cracks.

Other types of volume defects can include inclusions (foreign particles or materials that become trapped within a material), grain boundaries (irregularities in the alignment of crystals or grains within a material), and voids (empty spaces or gaps within a material).

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Expressing the answer to 3 significant figures: the Planck's constant (h) is [tex]1.428 * 10^{-34} Js[/tex].

To find Planck's constant (h) using the given data, we can use the formula: E = h * f
where E is the energy of the ejected electrons, h is Planck's constant, and f is the frequency. We know that the energy lost by the electrons is equal to the potential difference (stopping potential, V0) times the elementary charge (e):
E = e * V0
We can now substitute the energy equation into the formula for h: e * V0 = h * f
Rearrange to find h: h = (e * V0) / f
Now, we can plug in the given values to find h for each set of data. For the first data set:
V0 = 0.551 V
[tex]f = 6 * 10^{14} Hz[/tex]
[tex]e = 1.6 * 10^{-19} C[/tex] (elementary charge)
[tex]h = (1.6 * 10^{-19} C * 0.551 V) / (6 * 10^{14} Hz)[/tex]
[tex]h = 1.468 * 10^{-34} Js[/tex]
For the second data set:
V0 = 0.965 V
[tex]f = 7 * 10^{14} Hz[/tex]
[tex]h = (1.6 * 10^{-19} C * 0.965 V) / (7 * 10^{14} Hz)[/tex]
[tex]h = 1.389* 10^{-34} Js[/tex]
Now, we can find the average of the two values for h:
[tex]h_{avg} = (1.468 * 10^{-3} Js + 1.389 * 10^{-34} Js) / 2[/tex]
[tex]h_{avg} = 1.428 * 10^{-34} Js[/tex]

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If an object with a circumference of 20 cm travels a distance of 100 cm across a surface, it would have made 5 rotations. This is because one rotation of the object would cover a distance equal to its circumference, which is 20 cm. Therefore, 100 cm of travel distance would be equal to 5 rotations (100 cm ÷ 20 cm per rotation = 5 rotations).

To determine the number of rotations an object with a circumference of 20 cm made while rolling without sliding across a surface for a distance of 100 cm, follow these steps:
Step 1: Determine the circumference of the object.
The circumference is given as 20 cm.
Step 2: Determine the distance traveled across the surface.
The object traveled 100 cm.
Step 3: Calculate the number of rotations.
To find the number of rotations, divide the distance traveled by the circumference of the object.
Number of rotations = (Distance traveled) / (Circumference)
Number of rotations = 100 cm / 20 cm
Number of rotations = 5
The object made 5 complete rotations while rolling across the surface.

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Standing at the same distance from the wall, you can anticipate seeing a diffraction pattern with a possible stronger central maximum when you switch to a green laser pointer (532nm) in a diffraction experiment.

When you switch from a red laser pointer (current wavelength of 630nm) to a green laser pointer (532nm) in a diffraction experiment, you can expect the following changes while standing at the same distance from the wall:
1. The diffraction pattern will have a different spacing between fringes: Since the green laser has a shorter wavelength than the red laser, the spacing between the fringes in the diffraction pattern will be smaller. This is because the fringe spacing is inversely proportional to the wavelength of the light.
2. The central maximum may appear brighter: Green light is generally more easily perceived by the human eye compared to red light. As a result, the central maximum in the diffraction pattern might appear brighter when using the green laser pointer.
To summarize, when you switch to a green laser pointer (532nm) in a diffraction experiment while standing at the same distance from the wall, you can expect to see a diffraction pattern with smaller spacing between the fringes and a potentially brighter central maximum.

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To determine the magnitude r of the radius of curvature of a spherical mirror that creates an upright image 10 meters away from an object and half the height of the object, we can follow these steps:

1. Identify that an upright image is formed only by a convex mirror.
2. Use the mirror formula: 1/f = 1/v + 1/u, where f is the focal length, v is the image distance, and u is the object distance.
3. Use the magnification formula: M = -v/u, where M is the magnification.
4. Identify the relationship between the radius of curvature and the focal length: f = r/2 for a convex mirror.

First, find the magnification:
M = -1/2 (since the image is half the height of the object)

Next, use the magnification formula to find the object distance (u):
-1/2 = -v/u
u = 2v (since the object distance must be positive for a convex mirror)

Given that the image distance (v) is 10 meters:
u = 2 * 10 = 20 meters

Now, apply the mirror formula to find the focal length (f):
1/f = 1/10 + 1/20
1/f = 3/20
f = 20/3 meters

Finally, use the relationship between the focal length and the radius of curvature for a convex mirror:
f = r/2
20/3 = r/2
r = (20/3) * 2 = 40/3 meters

The magnitude r of the radius of curvature of the spherical mirror is 40/3 meters.

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Two moving objects collide and move on paths that are 120 degrees apart. The total momentum of the objects after the collision is Equal to the total momentum before the collision.

The conservation of momentum states that in a closed system with no external forces, the total momentum of the system remains constant throughout the collision. This principle applies to both linear and angular momentum. In this scenario, the two objects initially have individual momenta (mass x velocity) that combine to form the total momentum of the system.

After the collision, they move apart at an angle of 120 degrees. Despite the change in direction, the total momentum of the system remains the same because no external forces are acting upon the objects. To better understand this, consider the vector representation of momentum. Before the collision, the momenta of the two objects have a certain magnitude and direction. After the collision, their momenta will change in direction but not in magnitude, resulting in a combined momentum vector that has the same magnitude as before.

In conclusion, when two objects collide and move on paths that are 120 degrees apart, the conservation of momentum ensures that the total momentum after the collision remains equal to the total momentum before the collision. This principle holds true regardless of the angle between the objects' paths, as long as no external forces act upon them.

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Explanation:

list and discuss five strategies you would use to the teacher to improve discipline in your class and create a conductive environment

The energy of the photon is inversely proportional to its wavelength.

Since photons are thought of as point particles, they are said to be physically unsized and unstructured. Since they cannot be divided into smaller parts, they are regarded as elementary particles.

The wavelength of the photon and the size of the absorbing object determine how far away from the photon's line of transmission one must be to interact with or absorb it.

In general, the likelihood of contact or absorption increases with proximity to the line of propagation.

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For an ideal transformer, the turns ratio is expressed as 1 : n, where n equals the ratio of the number of turns on the secondary coil (n2) to the number of turns on the primary coil (n1). In other words, n = n2/n1.

The turns ratio determines the voltage and current relationship between the primary and secondary coils.

The voltage across the secondary coil (V2) is proportional to the number of turns in the secondary coil (n2), while the voltage across the primary coil (V1) is proportional to the number of turns in the primary coil (n1). Therefore, the turns ratio determines the ratio of the output voltage to the input voltage, given by:

V2/V1 = n2/n1

Similarly, the current in the secondary coil (I2) is proportional to the number of turns in the secondary coil (n2), while the current in the primary coil (I1) is proportional to the number of turns in the primary coil (n1).

Therefore, the turns ratio also determines the ratio of the output current to the input current, given by:

I2/I1 = n1/n2

In summary, the turns ratio of an ideal transformer is the ratio of the number of turns in the secondary coil to the number of turns in the primary coil, expressed as 1 : n, where n = n2/n1.

This ratio determines the voltage and current relationship between the primary and secondary coils, allowing for efficient voltage transformation and electrical isolation.

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As a joint is moved through its range of motion when strength training with free weights, such as doing the arm curl, the moment arm for the muscle crossing the joint will get :

The correct answer is a. longer.

As the joint is moved through its range of motion, the moment arm for the muscle crossing the joint will increase, resulting in a longer moment arm. This will increase the torque generated by the muscle, making the exercise more challenging and effective for building strength. This is because the moment arm length changes as the joint angle changes throughout the range of motion.

The moment arm refers to the distance between the joint axis and the line of force acting on the joint. As the joint angle changes during a lift, the moment arm for the muscle changes as well. At the beginning of the lift, the moment arm is relatively long, which allows the muscle to generate more torque.

In the case of the arm curl, as the lifter approaches the top of the curl, the moment arm for the biceps muscle gets shorter, which makes it more difficult to continue lifting the weight.

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The mass of the Sun decreases by about 4.2 million tons (3.8 million metric tonnes) each second due to the energy radiated from it, which is a result of nuclear fusion in its core converting hydrogen into helium.

This energy release is referred to as its luminosity.

However, as the Sun converts hydrogen into helium through nuclear fusion, its mass decreases. This is because the mass of the helium produced is slightly less than the mass of the four hydrogen atoms that were fused to produce it.

This mass difference is converted into energy, which is released into space in the form of light and other electromagnetic radiation.

The amount of mass that the Sun loses each second due to nuclear fusion is equivalent to about 4.2 million tons (3.8 million metric tonnes).

This may seem like a small amount in comparison to the Sun's total mass, which is approximately 2 × 10^30 kg, but over the course of billions of years, this mass loss has a significant effect on the Sun's overall properties and lifespan.

The luminosity of the Sun, which is a measure of the total amount of energy radiated per unit time, is directly related to its mass and the rate at which it is undergoing nuclear fusion.

As the Sun's mass decreases, its luminosity will also change. Over the course of billions of years, this will result in changes in the Sun's overall properties, such as its size, temperature, and lifespan.

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The photoelectrons will not be produced  for wavelengths greater than 500 nm. The range of wavelengths for which photoelectrons are not produced is 500 nm to 700 nm.

To determine the range of wavelengths for which photoelectrons are not produced, we need to consider the work function of the metal and the energy of the photons in the white light.

The work function (Φ) is 2.5 eV, which is the minimum energy required to release an electron from the metal surface. We can use the following equation to find the threshold wavelength (λ_threshold) beyond which photoelectrons will not be produced:

Φ = h * c / λ_threshold

where h is Planck's constant (6.63 x 10^-34 Js), c is the speed of light (3 x 10^8 m/s), and λ_threshold is the threshold wavelength in meters.

First, we need to convert the work function to Joules:

1 eV = 1.6 x 10^-19 J
Φ = 2.5 eV × (1.6 x 10^-19 J/eV) = 4 x 10^-19 J

Now, we can find the threshold wavelength:

λ_threshold = h * c / Φ
λ_threshold = (6.63 x 10^-34 Js) * (3 x 10^8 m/s) / (4 x 10^-19 J)
λ_threshold ≈ 5 x 10^-7 m or 500 nm

So, for wavelengths greater than 500 nm, photoelectrons will not be produced. Since the white light has a continuous wavelength band from 400 nm to 700 nm, the range of wavelengths for which photoelectrons are not produced is 500 nm to 700 nm.

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the capacitive reactance of a 200 µF capacitor in a standard 120 voltage AC circuit with a frequency of 60 Hz is approximately 1326.35 ohms.

The capacitive reactance of a capacitor is given by the formula:

Xc = 1 / (2πfC)

where Xc denotes capacitive reactance, f frequency, and C capacitance.

In this instance, the capacitance is given as 200 microfarads (µF) which is equivalent to 0.0002 farads. The frequency is 60 Hz.

Substituting these values into the formula, we get:

Xc = 1 / (2π × 60 × 0.0002)

Xc = 1326.35 ohms

The capacitive reactance of a capacitor is a measure of the resistance it provides to alternating current (AC) flow. Capacitive reactance is measured in ohms, like resistance, but unlike resistance, which is constant for a given resistor, capacitive reactance fluctuates with frequency.

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By dating the layer that is younger than the earthquake, you will be able to more accurately determine when fault C moved, which can provide valuable information for understanding the geological history and potential future activity of the fault.

To constrain the date when fault C moved as closely as possible, you would want to date a layer number that is younger than the earthquake.

Here's a step-by-step explanation:

1. Identify the youngest layer affected by fault C: To do this, examine the stratigraphic sequence and find the youngest rock layer that has been displaced by fault C. This layer will provide the maximum age constraint for the fault movement.

2. Locate the layer immediately above the youngest affected layer: This layer is the first one that was deposited after the fault movement and can provide a minimum age constraint for the fault movement.

3. Obtain samples for dating: Collect samples from the identified layer for dating purposes. The type of dating method used depends on the type of rock and the available dating techniques.

4. Perform dating analysis: Submit the samples to a laboratory that specializes in radiometric dating, such as radiocarbon, potassium-argon, or uranium-lead dating. The lab will analyze the samples and provide an estimated age for the layer.

5. Interpret the results: Use the age obtained from the dating analysis to constrain the date when fault C moved. Since the layer dated is younger than the earthquake, it represents a minimum age constraint for the fault movement.

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Based on observations of our universe, astronomers make a few basic assumptions in regards to the structure of the universe. One of the most fundamental assumptions is the cosmological principle, which states that the universe is homogeneous and isotropic on large scales. This means that the universe looks the same in all directions and that the distribution of matter and energy is uniform on large scales.

Another assumption is that the universe is expanding, as evidenced by the redshift of light from distant galaxies. This expansion is described by the Hubble law, which relates the distance of a galaxy to its recession velocity.

Astronomers also assume that the universe is composed of dark matter and dark energy, which cannot be directly detected but are inferred from their gravitational effects on visible matter. Dark matter is believed to make up most of the matter in the universe and to provide the gravitational glue that holds galaxies together, while dark energy is thought to be responsible for the observed accelerated expansion of the universe.

These assumptions form the basis for our current understanding of the structure and evolution of the universe, and have led to many important discoveries and insights into the nature of our cosmos.

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The force of the spring space applied to the ball is, F = 70 N/C.

Simple harmonic motion is a particular type of periodic motion of a body that results from a dynamic equilibrium between an inertial force that is proportional to the body's acceleration out of the static equilibrium position and a restoring force on the moving object that is directly proportional to the magnitude of the object's displacement and acts towards the image's equilibrium position. SHM is performed using oscillating spring.

Spring constant multiplied by distance is the force delivered to the spring.

F = kx

[tex]V=2.0x^2y^2+3.0e^{(3z).[/tex]

Given,

mass m = 0.2 kg

height h = 3 m

k = 175 N/m

x = 0.4 m

The force applied to the ball is,

F = kx

F = 175×0.4

F = 70 N/C.

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Correct Question:

The voltage in the region of spring space is given by [tex]V=2.0x^2y^2+3.0e^{(3z).[/tex]What is the z component of the electric field F at the point (-5,3,-2)?

Circular orbits have foci located at the center of the circle, while elliptical orbits have foci located inside the ellipse. Man-made satellites tend to have elliptical orbits to maintain a specific altitude around Earth. The planets in our solar system have elliptical orbits with relatively small eccentricities, with the Sun located at one of the foci of the ellipse.

An elliptical orbit is a type of orbital path that a planet follows around the Sun. It is an oval-shaped path where the planet moves around the Sun with varying speeds, and the Sun is located at one of the two foci of the ellipse. The eccentricity of an elliptical orbit determines how elongated or circular it is, with a value of 0 representing a circular orbit, and a value between 0 and 1 representing an elliptical orbit. All planets in our solar system have elliptical orbits around the Sun, with the eccentricity of their orbits ranging from nearly circular (e.g., Earth) to highly elliptical (e.g., Mercury).

1. The foci of a circular orbit are located at the center of the circle, while the foci of an elliptical orbit are located at two points inside the ellipse.

2. Man-made satellites tend to have elliptical orbits because they need to maintain a specific altitude while orbiting the Earth.

3. Planets in our solar system have elliptical orbits around the Sun, with the Sun located at one of the foci of the ellipse. However, the eccentricities of their orbits are relatively small, so they appear almost circular.

Therefore, elliptical orbits have foci inside the ellipse, and circular orbits have foci at the center of the circle. In order to maintain a particular height around the Earth, man-made satellites typically have elliptical orbits. The Sun is situated at one of the ellipse's foci, and the planets in our solar system have elliptical orbits with small eccentricities.

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In an ionic solid, the Frenkel defect and the Schottky defect are the two point defects that can provide charge compensation.



1. Frenkel defect: A Frenkel defect occurs when an ion (usually a smaller cation) leaves its original position in the lattice and occupies an interstitial site, leaving a vacancy behind. This defect maintains the overall charge neutrality because both the vacancy and the interstitial ion are of the same type and charge.

2. Schottky defect: A Schottky defect is formed when a pair of oppositely charged ions (one cation and one anion) are simultaneously removed from their lattice positions, leaving vacancies behind. The defect maintains charge neutrality since equal numbers of positive and negative ions are removed.

In summary, both Frenkel and Schottky defects help in charge compensation by maintaining charge neutrality within the ionic solid.

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The voltage provided by the two D cell batteries placed in parallel is 1.5 V.

When two identical batteries are placed in parallel, the voltage provided by the circuit remains the same, while the current capacity doubles. Therefore, the voltage provided by the two D cell batteries in parallel is the same as that provided by a single D cell battery, which is 1.5 V.

Option a, 6 V, is incorrect because two batteries in parallel do not add up their voltages.

Option c, 0.75 V, is incorrect because two identical batteries in parallel do not reduce their voltage.

Option d, 3 V, is incorrect because two batteries in parallel do not add up their voltages.

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To prepare an aqueous solution with a pH of ~8.5, you should choose a salt that would result in a slightly alkaline solution. The salts provided in your list were not included in the question, so I'll provide a general guideline to help you make a decision:

1. Identify a salt composed of a weak acid and a strong base. This combination typically results in a slightly alkaline solution, which corresponds to a pH greater than 7.
2. Consult a pH chart or a table of acid/base dissociation constants (Ka and Kb) to estimate the pH of the resulting solution when the selected salt is dissolved in water.

By following these guidelines and considering the salts available to you, you should be able to choose the appropriate salt to prepare an aqueous solution with a pH of ~8.5.

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The reaction force is the force that the pen exerts upward on the Earth, which is equal in magnitude and opposite in direction to the force that the Earth exerts downward on the pen. This is known as Newton's third law of motion, which states that for every action, there is an equal and opposite reaction.

So in this case, the reaction force is the upward force exerted by the pen on the table and the Earth.

A reaction force is a force that acts in response to an applied force. According to Newton's Third Law of Motion, for every action, there is an equal and opposite reaction. This means that when an object exerts a force on another object, the second object will exert an equal and opposite force back on the first object. This force is called the reaction force.

For example, when a person jumps off the ground, the person exerts a force on the ground in the downward direction. The ground, in turn, exerts an equal and opposite force back on the person, pushing the person upward and allowing them to jump.

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The water flow rate through the turbines is 187267.08 kg/s.

To find the water flow rate, we can use the following formula:

Power = Efficiency x Flow rate x g x Height

Where,

Efficiency = 84% = 0.84 (as a decimal)

g = acceleration due to gravity = 9.81 m/s^2

Height = the height of the dam = unknown

We can rearrange the formula to solve for the flow rate:

Flow rate = Power / (Efficiency x g x Height)

We are given that the power generated is 50 MW and the efficiency is 0.84. We need to find the height of the dam.

The kinetic energy of the water is given by:

KE = (1/2) x m x v^2

Where,

m = mass of water flowing per second

v = velocity of water = 18 m/s

The kinetic energy is converted to electrical energy with an efficiency of 0.84. So, we can write:

(1/2) x m x v^2 x 0.84 = 50 x 10^6

Simplifying and solving for m, we get:

m = (2 x 50 x 10^6) / (0.84 x v^2)

Substituting the given value of v, we get:

m = (2 x 50 x 10^6) / (0.84 x 18^2) = 187267.08 kg/s

Therefore, the water flow rate through the turbines is 187267.08 kg/s.4

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The magnitude of the electric field at P is zero V/m.

We can find the electric field at the center of the square by using the principle of superposition, which states that the total electric field at a point due to a group of charges is the vector sum of the electric fields at that point due to each individual charge.

Since the electric field due to a point charge Q at a distance r is given by:

[tex]E = kQ/r^2[/tex].

where k is the Coulomb constant, we can find the electric field at the center of the square due to each of the four charges in the corners of the square, and then add them vectorially.

The distance from each corner of the square to the center is [tex]a\sqrt{2}[/tex] so the electric field due to each charge at the center of the square is:

[tex]E = kQ/(a/\sqrt{2 } )^2[/tex]

[tex]= 2kQ/a^2[/tex]

Since the charges are located at the corners of a square, they are arranged symmetrically with respect to the center of the square, and therefore their electric fields add up vectorially to produce a net electric field at the center of the square that is directed along the diagonal of the square.

The electric field due to each of the charges is pointing towards the center of the square, so the direction of each electric field is along one of the diagonals of the square.

Since there are two diagonals that are perpendicular to each other, the vector sum of the four electric fields will have a magnitude of:

[tex]E_total = 2E cos(45) + 2E cos(135) =0[/tex]

where E is the magnitude of the electric field due to each charge, and the cosines account for the fact that the electric fields are at an angle of 45 degrees with respect to each diagonal.

The answer is (E) zero V/m.

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If a polymer is partially or fully crystallized, its properties will likely change in a number of ways. Crystallization involves the formation of a regular, ordered structure within the polymer, which can have a significant impact on its mechanical, thermal, and chemical properties.

For example, crystallized polymers tend to be more rigid and less flexible than their non-crystalline counterparts, due to the increased ordering of the molecular chains. This can lead to improved strength and stiffness, but may also make the polymer more brittle and prone to cracking or breaking under stress.

Additionally, crystallized polymers often have a higher melting point and greater thermal stability than non-crystalline polymers, due to the increased energy required to break apart the ordered structure. This can make them more resistant to heat and chemical degradation, but may also make them more difficult to process and mold.

Overall, the specific changes in properties that occur when a polymer is partially or fully crystallized will depend on a variety of factors, including the specific polymer chemistry, the degree of crystallinity, and the processing conditions used to induce crystallization. However, in general, crystallization is likely to result in a more ordered and rigid polymer with improved thermal and mechanical properties.

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Answer:

E)

Explanation:

The term net force most accurately describes the quantity that changes velocity in an object.