rocky uses a frictionless pulley system to lift an engine up 2 feet while removing it from a car. rochelle has no pulley system, but asks 3 friends to help her lift an identical engine up 2 feet to remove it from another car. who applied more total force in lifting the engine and why?

The three basic types of carburetors as defined by airflow through the carburetor are: updraft, downdraft, and sidedraft carburetors.

Carburetors are devices used in internal combustion engines to mix air and fuel in the correct proportions for efficient combustion. The three basic types of carburetors are determined by the direction of airflow through the carburetor. Updraft carburetors have the air and fuel mixture entering the engine from below, while downdraft carburetors have the air and fuel mixture entering from above.

Sidedraft carburetors have the air and fuel mixture entering from the side. Each type of carburetor has its own advantages and disadvantages, and the choice of carburetor depends on the specific application and engine requirements.

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The correct answer is a. True.

Frequency refers to the number of vibrations per second of a sound wave. The higher the frequency, the higher the pitch of the sound. Therefore, the frequency of a sound wave directly determines its pitch. A sound with a higher frequency will have a higher pitch, and a sound with a lower frequency will have a lower pitch.

The frequency of a sound determines its pitch.  Pitch is the perception of how high or low a sound is to the human ear. A higher frequency results in a higher pitch, while a lower frequency corresponds to a lower pitch.

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The locust jumped a total distance of 0.750 m at an angle of 55.0°. Using the sine and cosine functions, we can calculate the horizontal and vertical components of the jump.

Angle is a geometric figure formed by two lines or rays diverging from a common point. It is measured in degrees, and is used to indicate the amount of turn between the two lines or rays. Angles are often used in geometry, engineering, and physics to measure the size of objects or the amount of turn in a path. Angles are also used to indicate direction, such as in a compass. In mathematics, angles can be used to calculate the area and volume of shapes, as well as the length of curves.

The horizontal component is 0.666 m and the vertical component is 0.450 m. This means the locust jumped 0.666 m horizontally and 0.450 m vertically.

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A river 100 m wide flows due south at 1 m/s, a boat that goes 1 m/s relative to the water .The resultant distance will be 141m.

Option A is correct.

The sum of an object's individual vector velocities is its final velocity. The scalar product of an object's mass and its acceleration vector is equal to the sum of its vector forces.

Considering that the boat travels in a river that flows 1 m/s due south at a speed of 1 m/s due east.

The positive x and y axes should be represented by the north and east, respectively.

After that, we can convert the boat's resulting velocity into a vector.

Vr = i - j ( 1 m/s on x axis and -1m/s on y axis)

The time required to travel 100m from west to east at a speed of 1m/s is;

Time t = distance/speed = 100m/1m/s = 100s

Distance = velocity × time = (i - j) × 100 = 100i - 100j

Distance = 100i - 100j (in vector form)

Magnitude of the Resultant distance can be given as:

dr = √(dx ²+ dy²)

dr = √(100² + 100²)

dr = √(20000)

dr = 141.42m

dr = 141m

The relative velocity refers to how one observer would perceive another moving object within their own frame. The velocity of an object when there are multiple influences on its motion in a fixed reference frame is known as the resultant velocity.

At the point when an item, say, a boat, goes at a specific speed, and the medium through which it voyages, say, a stream, has its own speed, we can track down the resultant speed of the item by adding the two speeds. We find the boat's resulting velocity vector in this example.

Incomplete question:

A river 100 m wide flows 1 m/s due south. A boat that travels 1 m/s relative to the water is pointed due east as it crosses from the west bank. Relative to its starting point, the boat travels

A) 141 m.

B) 100 m.

C) 200 m.

D) more than 200 m.

E) nowhere

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For any circuit, a run of 3/8 inch flexible metal conduit cannot exceed 6 feet in length.

The National Electrical Code (NEC) states that the conduit size and wire size together determine the maximum length of a flexible metal conduit run for any circuit. The longest length for any circuit with a flexible metal conduit of 3/8 inch is 6 feet. This prevents an excessive voltage drop in the circuit brought on by the conductor's resistance, which could present a fire hazard. Based on a voltage drop of 3% or less at the circuit's rated current, the maximum length is determined. To ensure secure and effective electrical installations, it's crucial to adhere to the NEC regulations.

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The frequency of the weight suspended from the spring is 0.5 Hz.

To determine the frequency of a weight suspended from a spring that bobs up and down over a distance of 1 meter in two seconds, we need to consider the following terms:

- Distance: This is the total vertical distance covered by the weight, which is 1 meter.
- Time: This is the total time taken for the weight to complete one cycle, which is 2 seconds.

Now, frequency is the number of cycles per second, and can be calculated using the formula:
Frequency (f) = 1 / Time period (T)

In this case, the time period (T) is 2 seconds.

So, the frequency (f) can be calculated as:
f = 1 / 2 = 0.5 Hz

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The circuit represented, there is a battery with a positive terminal on top and a negative terminal on the bottom. The components connected in series are a 6-ohm resistor, a 4-henry inductor, and a switch S. After being open for a long time, the switch S is closed.

To find the current in the circuit after the switch has been closed for a long time, we need to consider the behavior of the inductor. When the switch has been closed for a long time, the inductor behaves like a short circuit or a wire with zero resistance as it reaches steady state. The circuit now effectively consists of just the 6-ohm resistor connected across the battery. To find the current, we can use Ohm s law where I is the current, V is the battery voltage, and R is the resistance. Since we know the resistance is 6 ohms and the inductor has become a short circuit, the current can be calculated as Unfortunately, you didn't provide.

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A series RLC circuit has resistance R = 75. 0 Ω and inductance L = 0. 440 H. The voltage source operates at a frequency of f = 50. 0 Hz and the reactance is Z = R = 75. 0 Ω.

(a) The capacitance of the circuit is 5.33 × [tex]10^{-5}[/tex] F.

(b) The phase angle is 0 degrees.

(a) The reactance of the circuit is given by

X = Z - R = 0 Ω

At resonance, the reactance is zero, so we can find the capacitance using

X = 1/(2πfC) = 0 Ω

Solving for C, we get

C = 1/(2πfX) = 5.33 × [tex]10^{-5}[/tex] F

Therefore, the capacitance of the circuit is 5.33 × [tex]10^{-5}[/tex] F.

(b) At resonance, the impedance of the circuit is purely resistive, so the phase angle between the current and voltage is zero. Therefore, the phase angle is 0 degrees.

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An electromagnetic wave is a transverse wave consisting of oscillating electric and magnetic fields that propagate through space at the speed of light.

The direction of propagation of the wave is perpendicular to the electric and magnetic fields.

In this scenario, a plane electromagnetic wave is traveling vertically downward, meaning the direction of propagation is vertical, and the magnetic field is pointing eastward.

According to the right-hand rule, if the magnetic field is pointing eastward, then the electric field must be perpendicular to it and to the direction of propagation.

Therefore, the electric field must be pointing toward the north.

This is because the electric and magnetic fields in an electromagnetic wave are orthogonal to each other, meaning they are at right angles to each other.

So, if one field is pointing in a particular direction, the other field must be pointing in a direction perpendicular to it.

Understanding the direction of the electric and magnetic fields in an electromagnetic wave is crucial to understanding how the wave behaves and interacts with matter. This is fundamental to many areas of physics, including optics, electromagnetic radiation, and communication systems.

So, the correct answer is: toward the north.

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The electric field of an electromagnetic wave is perpendicular to the magnetic field and both are perpendicular to the direction of wave propagation. Therefore, since the magnetic field is pointing eastward, the electric field must be pointing vertically downward.

The right-hand rule is a way to determine the direction of the electric field based on the direction of the magnetic field. If we hold our right hand with the thumb pointing in the direction of the propagation (vertically downward in this case) and the fingers curled in the direction of the magnetic field (eastward in this case), then the direction that the extended fingers point to will be the direction of the electric field.

In this scenario, the magnetic field is pointing eastward and the propagation is vertically downward. If we use the right-hand rule, we can see that the electric field could be pointing either toward the north or toward the south, as those are the directions that are perpendicular to both the magnetic field and the direction of propagation. Therefore, without further information, we cannot determine the exact direction of the electric field.

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True. When conductors of different insulation types are associated together, the limiting temperature of any conductor should not be exceeded.

Equation 310-15(3) is a reference to section 310-15 of the National Electric Code (NEC) which outlines rules for sizing conductors based on factors such as current-carrying capacity and temperature ratings. In this case, the statement is referring to situations where conductors with different types of insulation are used together, and emphasizes the importance of ensuring that the temperature limit for any individual conductor is not exceeded. This is critical for ensuring safe and reliable operation of electrical systems. This is to ensure the safety and proper functioning of all conductors, as well as preventing damage to the insulation and potential electrical hazards.

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A typical municipal system for distributing drinking water would be classified as a community water system.

A run of the mill civil framework for conveying drinking water would be delegated a local area water framework. A people group water framework is a public water framework that gives drinking water to no less than 15 help associations or serves something like 25 individuals for no less than 60 days out of every year. Metropolitan water dispersion frameworks meet this definition as they give drinking water to a local area or district. A common local area water framework incorporates a water treatment plant, siphoning stations, capacity tanks, and a dispersion organization of lines, valves, and hydrants. The framework is controlled by the Protected Drinking Water Act, which sets principles for the nature of drinking water and requires customary testing and answering to guarantee that the water is ok for utilization.

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A typical municipal system for distributing drinking water would be classified as a community water system.

A local area water framework would be given a standard civil framework for delivering drinking water. A people group water system is a public water system that provides drinking water to at least 15 nonprofit organisations or serves at least 25 people for at least 60 days out of the year. Metropolitan water dispersion frameworks fall under this criteria since they supply a neighbourhood or district with drinking water.

A water treatment facility, syphoning stations, capacity tanks, and a distribution network of pipes, valves, and hydrants are all components of a common local water infrastructure. The Protected Drinking Water Act, which establishes standards for the quality of drinking water and mandates routine testing and reporting to ensure compliance, governs the framework.

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The complete question is

A typical municipal system for distributing drinking water would be classified as a _________

Be sure to follow proper safety precautions when working with a light source, and handle the flat surface (new medium) carefully to avoid any damage or injuries.

What is Reflection?

Reflection is a phenomenon that occurs when a wave, such as light or sound, strikes a surface and bounces back, either returning to the same medium or entering a new medium. It involves the change in direction of a wave as it encounters a surface, resulting in the wave bouncing off the surface and changing its direction.

A light source (e.g., a flashlight or a laser pointer)

A flat surface to act as the new medium (e.g., a piece of glass or a mirror)

A protractor or an angle-measuring tool

A ruler or a measuring tape

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The angle of incidence and angle of reflection are equal, according to the law of reflection.

Define angle of incidence and angle of reflection.

The angle between this normal and the incident beam is known as the angle of incidence, and the angle between this normal and the reflected ray is known as the angle of reflection. The angle of incidence and angle of reflection are equal, according to the law of reflection.

According to the Law of Reflection, the angle of incidence and the angle of reflection, as measured from the normal to the surface, are equal. Curved surfaces are irrelevant since the angles are calculated from the normal, which is perpendicular to the surface. This is the foundation for curved mirrors like concave and convex ones.

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The greater the temperature difference between two heat reservoirs, the more work can be done.

This is because heat naturally flows from hotter to cooler objects, so a larger temperature difference means there is more heat available to be converted into work. The height of the reservoirs is not directly related to the amount of work that can be done. The term "reservoirs" refers to the sources of heat, which can be anything from a power plant to the sun. This is due to the fact that heat naturally flows from a high-temperature region to a low-temperature region. With a larger temperature difference, this flow of heat is more significant, enabling more work to be done by the system.

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0.6π m/s is the tangential speed of a point 0.3 m from the center of the wheel.

To determine the tangential speed of a point on a wheel, we can use the formula: tangential speed = radius x angular velocity. In this case, the radius is given as 0.3 m and we don't have the angular velocity. However, we can use the formula for linear speed (v = d/t) to find the angular velocity.
Assuming that the wheel makes one complete revolution (2π radians) in one second, the distance traveled by a point on the circumference (i.e. the wheel's perimeter) is the wheel's circumference. The circumference is given by 2πr, where r is the radius of the wheel. So, the linear speed of a point on the circumference is:
v = d/t = 2πr/1s = 2π(0.3)m/s = 0.6π m/s
Now we can find the angular velocity by using the formula for angular velocity (ω = v/r):
ω = v/r = (0.6π m/s)/(0.3 m) = 2π rad/s
Finally, we can use the formula for tangential speed to find the speed of a point 0.3 m from the center of the wheel:
tangential speed = radius x angular velocity = (0.3 m) x (2π rad/s) = 0.6π m/s
Therefore, the correct answer is not listed, but it is approximately 0.6π m/s.

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A wheel with a 0.10-m radius is rotating at 35 rev/s. It then slows uniformly to 15 rev/s over a 3.0-s interval. The angular acceleration of a point on the wheel is C) -6.7 rev/s².

To find the angular acceleration of a point on the wheel, we will follow these steps:
1. Convert the initial and final angular velocities from rev/s to rad/s.
2. Calculate the angular acceleration using the formula: α = (ω[tex]_{final}[/tex] - ω[tex]_{initial}[/tex]) / [tex]time_{interval}[/tex]
Step 1: Convert rev/s to rad/s
Initial angular velocity (ω[tex]_{initial}[/tex]) = 35 rev/s * (2π rad/rev) = 70π rad/s
Final angular velocity (ω[tex]_{final}[/tex]) = 15 rev/s * (2π rad/rev) = 30π rad/s
Step 2: Calculate angular acceleration (α)
Time interval = 3.0 s
α = (ω[tex]_{final }[/tex]- ω[tex]_{initial}[/tex]) / [tex]time_{interval}[/tex] = (30π - 70π) / 3 = -40π / 3 rad/s²
To convert the angular acceleration back to rev/s², divide by (2π rad/rev):
α = (-40π / 3) / (2π) = -20/3 rev/s² ≈ -6.7 rev/s²

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According to Newton's Law of Universal Gravitation, which states that the gravitational force between two items is inversely proportional, the gravitational force between two objects is greatest when they are situated nearest to one another.

All substance is pulled together by the force of gravity. Gravity increases with mass, thus objects with a lot of mass, such planets, moons, and stars, pull more powerfully.

the power behind a glass you dropped falling to the ground. The mechanism that makes sure Earth and the other planets orbit the sun with the proper alignment.

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The concept that was NOT a part of Kepler's Laws of Planetary Motion is c) Epicycles are needed to explain the varying brightnesses of the planets.

Kepler's Laws of Planetary Motion were formulated by the German astronomer Johannes Kepler in the early 17th century, based on the observations of his mentor Tycho Brahe. These laws describe the motion of planets around the Sun and are considered to be among the most important discoveries in the history of astronomy.

Kepler's first law states that all planetary orbits are ellipses with the Sun at one of the foci. The second law states that the line connecting a planet to the Sun sweeps out equal areas at equal times, meaning that a planet moves faster when it is closer to the Sun. The third law states that the square of a planet's orbital period is proportional to the cube of its average distance from the Sun.

Epicycles, on the other hand, were used by ancient astronomers to explain the motion of planets in the sky. Epicycles were small circles that were added to the orbit of a planet to account for its apparent retrograde motion. Kepler's laws did not require the use of epicycles to explain the motion of planets.

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True. The active elements of fractal computation are indeed the pixels, which are the individual units that make up a digital image.

Fractal computation involves performing complex calculations and iterations on these pixels to generate the intricate patterns and structures that characterize fractals.

True. In the context of fractal computation, the active elements are the pixels, as they represent the individual data points that are calculated and displayed to form the fractal image.

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An average force of 750 N must be applied over 2.0 seconds to bring the football player to a stop.

Given

The initial velocity of the football player, u = 15 m/s

The final velocity of the football player, v = 0 (since he needs to be brought to a stop)

The time taken to bring the football player to a stop, t = 2.0 s

The mass of the football player, m = 100 kg

Solution

Using the formula for average force, which is:

(final momentum - starting momentum) / time = average force

We can first calculate the initial momentum of the football player, which is:

initial momentum = mass x velocity

= 100 kg x 15 m/s

= 1500 kg m/s

Next, we can calculate the final momentum of the football player, which is:

final momentum = mass x velocity (since he has been brought to a stop)

= 100 kg x 0 m/s

= 0 kg m/s

We can now plug these data into the average force formula:

(final momentum - starting momentum) / time = average force

= (0 kg m/s - 1500 kg m/s) / 2.0 s

= -750 N

The negative sign indicates that the force must be applied in the opposite direction to the motion of the football player,  to bring him to a stop. Therefore, an average force of 750 N must be applied over 2.0 seconds to bring the football player to a stop.

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false. According to NEC 378.21, conductors larger than the maximum size permitted by the wireway shall not be installed in the wireway.

This is because conductors that are too large can cause overheating and damage to the wireway, as well as potentially create a fire hazard.According to NEC 378.21, conductors larger than the maximum size permitted by the wireway shall not be installed in the wireway It is important to follow the manufacturer's instructions and guidelines for wireway installation and ensure that the conductors being installed are within the maximum size limits specified. Additionally, it is important to consider the ampacity and temperature ratings of the conductors to ensure they are appropriate for the intended application. Conductors that are too small may also create a hazard by overheating and causing a fire. Therefore, it is essential to choose the appropriate conductor size and follow all applicable codes and standards to ensure safe and reliable electrical installations.

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Wave speed is equal to wavelength divided by period. The wave height refers to the vertical distance between the crest (highest point) and trough (lowest point) of a wave.

The frequency refers to the number of waves that pass a certain point in a given amount of time. The wavelength is the distance between two consecutive crests or troughs of a wave. However, none of these terms are directly related to the calculation of wave speed, which is determined by dividing the wavelength by the period (the time it takes for one full wave cycle to pass a given point).

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Intellectual property theft are primarily middle class crimes that include offenses such as software pircay, boot legging, musical recording and movies, selling company trade secerts and copyright violations.

Therefore the answer is d. intellectual property theft.

Intellectual property theft refers to the unauthorized use or reproduction of protected works, such as software, music, movies, trade secrets, and other creative or proprietary materials.

These types of crimes are often considered middle-class crimes because they typically involve individuals who have the skills and resources to access and manipulate digital information, such as computer programmers or hackers.

Intellectual property theft can take many forms, including software piracy, bootlegging of music or movies, and selling confidential company information. These crimes can have significant economic and legal implications for individuals and businesses that hold intellectual property rights, and can result in criminal charges, civil penalties, and other consequences.

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-5.34 x 10⁷ Coulombs is the total charge on all the electrons in 1.0 kg sum of their charges is qr.

To find the total charge on all the electrons in 1.0 kg of H2O, we need to first determine the number of water molecules in 1.0 kg and then calculate the total charge based on the charge of each electron.
1. Find the number of moles in 1.0 kg of H2O:
Molar mass of H2O = (2 x 1) + 16 = 18 g/mol
1.0 kg = 1000 g
Number of moles = (1000 g) / (18 g/mol) = 55.56 moles
2. Find the number of water molecules:
Number of molecules = 55.56 moles × (6.022 x 10²³ molecules/mol) ≈ 3.34 x 10²⁵ molecules
3. Determine the total number of electrons:
Each H2O molecule has 10 electrons (2 from each hydrogen atom and 8 from the oxygen atom). So, the total number of electrons = 3.34 x 10²⁵ molecules × 10 electrons/molecule ≈ 3.34 x 10²⁶ electrons
4. Calculate the total charge:
Each electron carries a charge of -1.6 x 10⁻¹⁹ C. Therefore, the total charge (qr) = 3.34 x 10²⁶ electrons × (-1.6 x 10⁻¹⁹ C/electron) ≈ -5.34 x 10⁷ C.
In summary, the total charge on all the electrons in 1.0 kg of H2O is approximately -5.34 x 10⁷ Coulombs.

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The rate of ventricular conduction is best determined by the QRS complex on an ECG:

An electrocardiogram (ECG) is a non-invasive test that records the electrical activity of the heart over time using electrodes placed on the skin.

The QRS complex is one of the components of the ECG waveform.

It represents the depolarization of the ventricles, which is the electrical activity that causes the ventricles to contract and pump blood out of the heart.

The duration of the QRS complex can be measured in milliseconds (ms) using calipers or a ruler on the ECG tracing.

The QRS complex duration should be less than 0.12 seconds (120 ms) in a normal ECG.

The heart rate or the rate of ventricular conduction can be determined by measuring the time interval between successive QRS complexes.

This time interval is called the R-R interval, and it represents the time it takes for the ventricles to depolarize and contract again.

The heart rate can be calculated by dividing 60 seconds by the R-R interval in seconds. For example, if the R-R interval is 0.8 seconds, the heart rate would be 75 beats per minute (60/0.8=75).

In addition to the QRS complex, other components of the ECG waveform can also be used to determine the heart rate, such as the P wave (which represents the depolarization of the atria) and the T wave (which represents the repolarization of the ventricles).

However, the QRS complex is considered the most reliable and accurate indicator of the rate of ventricular conduction.

Overall, the QRS complex on an ECG is the best indicator of the rate of ventricular conduction because it represents the electrical activity that causes the ventricles to contract and pump blood out of the heart.

By measuring the duration and timing of successive QRS complexes, the heart rate or the rate of ventricular conduction can be accurately determined.

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The most common valve in water distribution systems is the a.gate valve.

This type of valve is widely used because of its ability to fully open and close with minimal obstruction in the water flow. It consists of a gate or a wedge that slides between two parallel seats to regulate the flow of water. The gate valve is commonly found in larger pipes because of its size and the fact that it can handle high pressure and flow rates. On the other hand, butterfly valves are commonly used in smaller pipes because of their compact size and ability to handle low-pressure applications.

Butterfly valves consist of a disc that rotates in the center of the pipe to control the flow of water. Check valves are typically used to prevent backflow and keep water flowing in one direction. They are commonly found in pump stations and in areas where there is a risk of water backflow contamination. Lastly, globe valves are typically used to regulate flow and are commonly found in smaller pipes. Therefore, the most common valve in water distribution system is the a. Gate valve.

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A 3/0 AWG copper conductor would be suitable for supplying a 190 ampere load in a dry location.

To decide the size of the transmitter expected to supply a 190 ampere load in a dry area, we want to utilize the Public Electric Code (NEC) rules for terminal evaluations.

As indicated by NEC 110.14(C)(1), when terminals are appraised for 75 degrees Celsius, the ampacity of guides should be founded on the 75 degrees Celsius ampacity segment of the NEC table 310.16.

Alluding to the table 310.16, a 3/0 AWG copper transmitter is evaluated for 200 amperes at 75 degrees Celsius. Subsequently, a 3/0 AWG copper transmitter would be reasonable for this application, as it has an ampacity more prominent than the expected 190 amperes load.

It is vital to take note of that the guide size chose ought to continuously be equivalent to or more prominent than the base size expected by NEC rules.

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The three essentials for combustion in an incinerator are: temperature, heat, and fuel. So the correct answer is c. temperature, heat, and fuel.

The three essentials for combustion in an incinerator are temperature, heat, and fuel.

Temperature: Combustion generally occurs at high temperatures, typically above the ignition temperature of the fuel. The high temperature provides the activation energy required to initiate and sustain the combustion process. In an incinerator, the temperature is typically controlled and maintained at a level that allows for efficient and complete combustion of the waste materials.

Heat: Heat is necessary to raise the temperature of the fuel to its ignition temperature and sustain the combustion process. Heat can be supplied through various means, such as external burners, electric heating elements, or by using the heat generated from the combustion itself as a self-sustaining process..

Fuel: The presence of a combustible fuel is essential for combustion to occur in an incinerator. The fuel can be in the form of solid waste, liquid waste, or gaseous waste, depending on the type of incinerator and the materials being incinerated.

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The minimum coefficient of static friction needed between your shoes and the ice to prevent sliding down the driveway is approximately 0.424.

To determine the minimum coefficient of static friction needed to prevent sliding down the icy driveway, we need to use the formula:

μ_s = tanθ

where μ_s is the coefficient of static friction and θ is the angle of incline in radians.

First, we need to convert the angle from degrees to radians:

θ = 23° = (23/180)π rad = 0.4014 rad

Now we can plug in the values:

μ_s = tan(0.4014) ≈ 0.424

Therefore, the minimum coefficient of static friction needed between your shoes and the ice to prevent sliding down the driveway is approximately 0.424.

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The speed of block C after the collisions is v/6.

What is Momentum?

Momentum is a physical quantity that measures the motion of an object. It is the product of an object's mass and velocity. The momentum of an object in a particular direction is given by the formula: p = m*v, where p is the momentum, m is the mass of the object, and v is its velocity. The momentum of an object can be changed by applying a force to it, resulting in an acceleration that will cause a change in velocity, and therefore, a change in momentum.

By conservation of momentum, the total momentum before the collision is equal to the total momentum after the collision. Before the collision, block A has momentum mv, and blocks B and C have zero momentum. After the collision between A and B, the two blocks move together with momentum (m + 2m)v = 3mv. By conservation of momentum, the momentum of block C after the collision is also 3mv, since there are no external forces acting on the system of blocks.

After the collision between blocks A and B, the total mass of the two blocks is m + 2m = 3m, so their velocity is v/3. When they collide with block C, the total mass of the three blocks is m + 2m + 3m = 6m, so their velocity after the collision is (v/3)(3) / 6 = v/6.

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20 rad/s^2 is the magnitude of the angular acceleration of the motor.

To find the angular acceleration of the motor, we need to use the formula:
angular acceleration = (final angular velocity - initial angular velocity) / time
In this case, we are given the initial and final angular velocities, but we don't know the time it takes for the motor to slow down. However, we do know the angle through which the drum turns during this time.
We can use the formula:
angle = (1/2) * angular acceleration * time^2
Rearranging this formula to solve for time, we get:
time = sqrt(2 * angle / angular acceleration)
Substituting the given values, we get:
180 = (1/2) * angular acceleration * (sqrt(2 * 180 / angular acceleration))^2
Simplifying:
180 = angular acceleration * 2 * 180 / angular acceleration
180 = 360
This is not possible, so we made a mistake somewhere. Let's try another approach.
We can use the formula:
final angular velocity^2 = initial angular velocity^2 + 2 * angular acceleration * angle
Substituting the given values, we get:
30^2 = 90^2 + 2 * angular acceleration * 180
Simplifying:
900 - 8100 = 360 * angular acceleration
-7200 = 360 * angular acceleration
angular acceleration = -20 rad/s^2
This answer is negative, which means that the motor is decelerating. To get the magnitude of the angular acceleration, we need to take the absolute value:
magnitude of angular acceleration = |-20| = 20 rad/s^2
Therefore, the correct answer is D) 20 rad/s^2.

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