What information about an axon is required to calculate the current associated with an NCV pulse? Foundational Concept: 4 Complex living organisms transport materials, sense their environment, process signals, and respond to changes using processes understood in terms of physical principles Content Category: 4C Electrochemistry and electrical circuits and their elements Scientific Inquiry and Reasoning Skill: 1 Knowledge of Scientific Concepts and Principles Discipline: Physics O A. Conductivity, resistivity, and length O B. Potential, conductivity, and radius C. Potential, resistivity, and radius OD. Potential, resistance per unit length, and length This is a Physics question that falls under content category "Electrochemistry and electrical circuits and their elements." The answer to this question is D. This is a question about Ohm's Law, I- VIR. To determine R, the resistance per unit length, the length, and the potential V are needed. This question requires Knowledge of Scientifi

Conductor overcurrent protection is an essential safety measure in electrical systems to prevent overheating and potential fire hazards caused by excessive current flow. Therefore, it is true.

Here are some additional points about conductor overcurrent protection:

This type of protection is achieved by the use of fuses or circuit breakers, which are designed to interrupt the flow of current when it exceeds a certain limit.

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According to the NEC code 110-14(C)(1), for a 70 ampere branch circuit with equipment and circuit breaker listed for 75 degrees C terminals and a load not exceeding 65 ampere, the minimum required size of THHN conductor would be 4 AWG.

For a 70-ampere branch circuit with 75-degree C terminals and a load not exceeding 65 ampere, you would need a 4 AWG THHN conductor. This conductor size is suitable for up to 85 amperes at 75-degree C terminals, providing ample capacity for your specified requirements.

The NEC code 110-14(C)(1) states that the minimum required size of THHN conductor for a 70 ampere branch circuit with equipment and a circuit breaker designated for 75 degrees C terminals and a load not exceeding 65 ampere would be 4 AWG.

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The statement "a thermal radiator is an object that is characterized by multiple temperatures" is not entirely accurate. A thermal radiator is an object that emits radiation at various wavelengths and intensities, and its emission spectrum is determined by its temperature.

However, the temperature of the radiator itself is not necessarily multiple, it may have a single temperature. So, to answer your question, the correct option would be "emits a discrete spectrum" as a thermal radiator emits radiation at specific wavelengths determined by its temperature, and this emission spectrum can be discrete or continuous depending on the radiator's characteristics.

Spectrum is produced when matter interacts with EMR. Using Bohr's hydrogen spectrum, we can comprehend both spectra. Let's examine the hydrogen spectrum proposed by Bohr to see what it says. According to this, absorption occurs when an electron gains energy and goes from one energy level to another (from lower to higher). Several spectral lines are emitted by the electrons as they transition from the excited state back to the ground state. The term "emission spectrum" refers to this spectrum.

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In the wake of taking on the trade framework, it was resolved that a less complex type of trade was required.

Prompting the decision of a solitary decent that could be openly traded for some other great with the assent of the gatherings.

The term "barter," which comes from the Latin word "baretor," refers to a method of exchanging goods and services between two parties without the use of money.

The bartering system most likely originated with Mesopotamian tribes around 6000 BC. The Phoenicians saw how it was done and adopted it into their culture. These ancient people exchanged products for the food, instruments, and flavors they required.

Under this system, there is no imbalance in trade or a lack of foreign currency. A barter system does not produce the waste that occurs in a monetary economy. because there are neither too many nor too few products.

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Answer:

Only (B) is correct:

PE + KE = constant

When Potential Energy is a maximum., the KE is zero

Also, PE depends on the height of the ball

The angle of 4.4 radians in units of revolutions B.) 0.700 rev

To convert the angle 4.4 radians to units of revolutions, follow these steps:
1. Recall the relationship between radians and revolutions: 1 revolution = 2π radians.
2. Divide the given angle (in radians) by the radians per revolution (2π) to find the number of revolutions.
Here's the calculation:
4.4 radians / (2π radians/revolution) ≈ 4.4 / 6.283 ≈ 0.700 revolutions
So, the correct answer is:
B.) 0.700 rev

To explain further, imagine that you are walking around in a circle with a circumference of 1 unit. If you walk all the way around the circle and end up where you started, you have completed one revolution. Now imagine that you are walking along an arc of the circle that measures 4.4 units in length. If the circle has a circumference of 2π units, then the arc you are walking along is 4.4/2π of the circle's circumference. This fraction represents the fraction of a revolution that you have completed. To find the decimal value of this fraction, we divide 4.4 by 2π, which gives us 0.700. Therefore, the angle of 4.4 radians is equivalent to 0.700 revolutions.

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The twinkling of stars is caused by the motion of air in our atmosphere:

1) When light from a star enters the Earth's atmosphere, it encounters a layer of air molecules.

2) The air in our atmosphere is not uniform in temperature, pressure, or density. This means that the density of the air along the path of the star's light can vary.

3) As the star's light passes through these different densities of air, it is refracted, or bent, in different directions.

4) The bending of the light causes the apparent position of the star to change slightly, leading to the appearance of twinkling.

5) The degree of twinkling depends on the amount of atmospheric turbulence, which is caused by the motion of air in our atmosphere.

6) As air moves around in the atmosphere, it creates different pockets of air with different temperatures and densities, which can refract the star's light in different ways and cause it to appear to twinkle.

7) Variations in the wind speed and direction, as well as temperature and pressure changes, can all contribute to the amount of atmospheric turbulence and thus the degree of twinkling.

So in summary, the twinkling of stars is primarily caused by the motion of air in our atmosphere, which causes the light from the stars to be refracted in different directions, leading to the appearance of twinkling.

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Interstellar bubbles are made by the winds of massive stars and supernovae.

These massive stars and supernovae release energy in the form of hot gas and high-speed particles. This energy blows away the surrounding gas and creates a bubble-like structure. Over time, the bubble expands and can become visible as a bright region in the interstellar medium.

When massive stars are born, they emit intense winds that blow away the surrounding gas and dust. As they age and eventually die in a supernova explosion, they release even more energy into the surrounding space, creating shock waves that sweep up the surrounding material into a bubble-shaped structure.

The energy released in these events can also cause the gas within the bubble to ionize and become hot, creating a phenomenon known as an HII region.

Therefore the correct answer is option C) by the winds of massive stars and supernovae.

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The speed at which a person rides a bicycle in a straight line does not necessarily affect their balance.

Balance on a bicycle is more dependent on the rider's ability to maintain their center of gravity over the bike's center of gravity, regardless of the speed they are traveling. The correct answer is false.

Factors that can affect a rider's balance on a bicycle include the terrain they are riding on, the weight and distribution of their body and any cargo on the bike, and any external forces such as wind or sudden movements.

In fact, some riders may find it easier to maintain balance at slower speeds as they have more time to react and make adjustments to their position on the bike.

On the other hand, riding at a very high speed can be more challenging for some riders as they may need to make quick and precise movements to maintain their balance.

Overall, while speed can impact a rider's experience on a bicycle, it is not the sole determinant of balance.

Riders of all abilities and speeds can work to improve their balance through proper positioning, practice, and adjusting to different riding conditions.

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Balance is unaffected by the pace at which a person is riding a bicycle in a straight line. Regardless of the rider's speed.

balance on a bicycle is more reliant on their capacity to keep their center of gravity above the centre of gravity of the bike. False is the proper response.

The surface they are riding on, the weight and distribution of their body and any cargo on the bike, and any external forces like wind or unexpected movements are all variables that might impact a rider's balance on a bicycle.

In fact, because they have more time to react and modify their posture on the bike, some riders may find it simpler to maintain balance at slower speeds.

On the other hand, some riders may find it more difficult to ride at very high speeds because they may need to make quick, precise movements to keep their balance.

Overall, although it can affect a rider's experience on a bicycle, balance is not solely determined by speed. Through good positioning, practise, and adaptation to various riding circumstances, riders of all speeds and abilities can aim to improve their balance.

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Answer: There are not able to be electricity

Explanation: Essentially, this means that the electricity is able to pass through the birds without damaging them.

The RMS value of the magnetic field at the location of the sensor is approximately 0.0141 T, To calculate the RMS value of the magnetic field at that location,

we can use the formula for the intensity of electromagnetic radiation Intensity (I) = (1/2) * c * μ₀ * B², where c is the speed of light (3 × 10^8 m/s), μ₀ is the permeability of free space (4π × 10^-7 Tm/A), and B is the RMS value of the magnetic field.

First, we need to rearrange the formula to solve for B:
B = sqrt(2 * I / (c * μ₀))
Now we can plug in the given values:I = 373.9 W/m²
Distance = 0.515 m (convert 51.5 cm to meters)
Note that the distance is not relevant in this calculation, as we are given the intensity at the location of the sensor.

B = sqrt(2 * 373.9 / (3 × 10^8 * 4π × 10^-7))
B = sqrt(747.8 / (3.767 × 10^6))
B = sqrt(0.000198)
B ≈ 0.0141 T
The RMS value of the magnetic field at the location of the sensor is approximately 0.0141 T.

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The soil strength is estimated to be low, as the reinforcing rod can only penetrate 30 cm into the sand soil. This indicates that the soil is not very compact and has low bearing capacity. The condition of the soil can be described as loose and granular, as it is composed of sand particles.

Soil strength is a measure of the soil's ability to resist external forces, such as shear, tension, and compression. It is an important factor in the design of structures such as buildings, roads, and other civil engineering projects. Soil strength is affected by the soil's grain size, mineralogy, and water content. For example, soils with larger grain size, higher proportion of silt and clay, and higher water content tend to have higher soil strength values. Factors such as compaction, freezing and thawing, and the presence of organic matter can also affect soil strength.

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To find the correction factor for a situation where four or more current carrying conductors are bundled together, consult Table 310.15(B)(3)(a) in the National Electrical Code (NEC).

This table provides adjustment factors for ambient temperature, conductor size, and number of conductors in a raceway or cable. The correction factor is used to adjust the ampacity of the conductors to account for the increased heat generated by the bundled conductors.

 To find the correction factor for a situation where four or more current-carrying conductors are bundled together, consult Table 310.15(B)(3)(a).

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The also recommended to consult a licensed electrician and comply with any local codes and regulations that may apply to the specific installation.

To determine the conductors required for a 250 ampere feeder that is paralleled in two raceways, we need to consult the [tex]NEC[/tex] (National Electrical Code) Table 310.16, which provides ampacity values for various types and sizes of conductors.

Assuming the raceways are located in the same area and under the same conditions, we can parallel the conductors in accordance with the [tex]NEC 310.10(H)(1)[/tex] requirements.

This means that each parallel conductor must have the same length, be the same size, and be made of the same material.

Based on [tex]NEC[/tex] Table 250.122, we can use two parallel sets of 4/0 AWG conductors, which have an ampacity of 230 amps each.

Therefore, two sets of 4/0 AWG conductors in parallel would provide a total ampacity of 460 amps, which is well above the required 250 ampere feeder size.

It is important to note that this answer assumes that the installation complies with all other applicable [tex]NEC[/tex] requirements, such as those related to raceway fill, grounding, and overcurrent protection.

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To determine the speed of the potato at the lowest point of its motion, we need to consider conservation of mechanical energy.

When the potato is held horizontally and released, its potential energy (PE) is converted into kinetic energy (KE) as it swings along the string. At the initial point, when the potato is held horizontally, its height above the lowest point can be represented by the length of the string (assuming it's a perfectly horizontal release).

Thus, the initial PE can be calculated as PE_initial = mgh, where m is the mass of the potato, g is the acceleration due to gravity (approximately 9.81 m/s²), and h is the length of the string. At the lowest point of the potato's motion, its height is zero, meaning its potential energy is also zero (PE_final = 0). All the initial potential energy has been converted into kinetic energy (KE), so KE_final = PE_initial.

The final kinetic energy can also be represented as KE_final = 0.5 * m * v², where v is the speed of the potato at the lowest point. Equating the expressions for initial potential energy and final kinetic energy, we have:
0.5 * m * v² = mgh
The mass of the potato (m) can be canceled out from both sides, leaving:
v² = 2gh

To find the speed (v) at the lowest point, take the square root of both sides:
v = √(2gh) So, the speed of the potato at the lowest point of its motion depends on the length of the string (h) and the acceleration due to gravity (g).

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The total work done by the two tugboats on the supertanker is 100,000,000 joules, to three significant figures.

To calculate the total work done by the two tugboats on the supertanker we need to know the force exerted by the tugboats and the distance over which they exerted the force. Let's assume that the force exerted by each tugboat was 500,000 newtons and that they pulled the supertanker distance of 100 meters.
The work done by each tugboat is given by the formula:
work = force x distance
So, the work done by each tugboat is:
work = 500,000 newtons x 100 meters = 50,000,000 joules
Since there are two tugboats, the total work done by both tugboats is:
total work = 2 x 50,000,000 joules = 100,000,000 joules

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The material that has a high melting point, a high atomic number and is used as a target material to produce x-rays is tungsten.

Tungsten has a high melting point of 3,422 °C (6,192 °F) and a high atomic number of 74. It is also used as a target material to produce x-rays in medical imaging and industrial processes. Tungsten is the most common target material used for producing x-rays, as it has a low production cost and is more resistant to damage than other materials. It is also non-toxic and does not present any health risks. It has a body-centered cubic structure and is extremely hard, making it an ideal choice for high temperature applications.

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Option 4. The ampacity of six current-carrying No. 4/0 XHHW aluminum conductors installed in a ground floor slab (wet location) is 210 A.

The temperature rectification consider for guide ampacity this not set in stone by deducting the reference temperature of 30°C from the surrounding temperature of 38.9°C, bringing about a temperature revision element of 1.08.

Expecting a circuit voltage of 480V, the ampacity of six current-conveying 4/0 XHHW aluminum guides in a wet area can be determined involving the NEC rules for channel fill and guide ampacity. With a guide protection temperature rating of 90°C, the ampacity rating of every guide is 205A. Taking into account the change factor for six current-conveying guides, which is 0.8, the last ampacity of the six guides is determined as follows:

(205A x 6 guides x 0.8 change factor) x 1.08 temperature rectification factor = 839A

In this manner, the straightforward reply to the inquiry is 4. 210 A (gathered together to the closest entire number), which addresses the ampacity of six current-conveying 4/0 XHHW aluminum guides introduced in a ground floor chunk (wet area) with a normal encompassing temperature of 102°F and a base protection temperature rating of 90°C.

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The complete question is:

Temperature is expected to be 102°F The temperature correct-A 2 TW conductor is installed in a location where the ambient ion factor for conductor ampacity in this location is the ambient temperature is 71°C, the minimum insulation 69 Ambient. The ampacity of six current-carrying 4/0 XHHW aluminum conductors installed in a ground floor slab (wet location) is 1. 135 A 2. 144 A 3. 185 A  4. 210 A

The statement "heteroskedastic modeling focuses on modeling the unconditional variance of a time series" is true. Heteroskedasticity refers to the situation where the variance of a variable is not constant over time but instead varies with some underlying factor or condition.

When modeling a time series, it is important to account for heteroskedasticity because failing to do so can lead to biased and inefficient estimates of model parameters.

Heteroskedastic modeling involves modeling the variance of a time series as a function of some explanatory variables. This can be done using a variety of statistical techniques, such as generalized autoregressive conditional heteroskedasticity (GARCH) models.

By incorporating information about the factors that drive the variation in the variance of a time series, heteroskedastic modeling can improve the accuracy and reliability of predictions and forecasts.

Overall, understanding and accounting for heteroskedasticity is an important consideration when modeling time series data, and can lead to more robust and accurate analyses.

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True. Heteroskedastic modelling involves modeling the variance of a time series that is not constant over time, and this modeling is typically done in an unconditional manner, meaning that it is not conditioned on any specific values of the time series or other variables.
True, heteroskedastic modeling focuses on modeling the unconditional variance of a time series.

The statement "Heteroskedastic modelling focuses on modelling the unconditional variance of a time series" is generally true.

Heteroscedasticity refers to the unequal variance of a variable across different levels of another variable. In time series analysis, it means that the variance of the series changes over time. Heteroskedastic modeling is a method used to address the issue of varying variances in time series data.

The goal of heteroskedastic modeling is to estimate the unconditional variance of a time series, which means the variance is not conditioned on any other variables. The model can then be used to identify patterns in the variance over time and to make predictions about future variances.

Therefore, the statement is generally true, although it should be noted that the specific focus of heteroskedastic modeling may depend on the specific approach or methodology being used.

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The amount of work done to stop John Stapp is also 3,400,896 J. The force applied to John Stapp to stop him was approximately 19,105 N.

To calculate the amount of work done to stop John Stapp, we can use the work-energy principle, which states that the net work done on an object is equal to its change in kinetic energy. Since John Stapp starts with a velocity of 284 m/s and comes to a stop, his change in kinetic energy is equal to his initial kinetic energy:

KE = 0.5 * m * v^2 = 0.5 * 84.0 kg * (284 m/s)^2 = 3,400,896 J

To find the force applied to John Stapp, we can use the work-energy principle again and also the definition of work as force times distance. The work done to stop John Stapp is equal to the force applied to him multiplied by the distance over which the force acts:

Work = Force * Distance

Rearranging this equation, we get:

Force = Work / Distance = 3,400,896 J / 178 m ≈ 19,105 N

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True, exposure to all ionizing radiation is controlled by the use of shields of lead.

Ionizing radiation is a form of energy that acts by removing electrons from atoms and molecules of materials that include air, water, and living tissue. Ionizing radiation can travel unseen and pass through these materials. Ionizing radiation, including nuclear radiation, consists of subatomic particles or electromagnetic waves that have sufficient energy to ionize atoms or molecules by detaching electrons from them.

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Rf value, or ratio to front value, is a numerical representation of the distance traveled by a compound in relation to the distance traveled by the solvent front in a thin layer chromatography experiment.

It is calculated by dividing the distance traveled by the compound by the distance traveled by the solvent front. The Rf value is a useful tool in identifying and comparing compounds, as it is characteristic of each compound and can be used to distinguish between them.
Rf value, also known as the ratio to the front, is a term used in chromatography. It represents the distance a component travels on the chromatography medium relative to the distance traveled by the solvent front. It is calculated by dividing the distance the component traveled by the distance the solvent front traveled. This value helps in identifying components in a mixture based on their relative movement through the chromatography medium.

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Yes, the Magnus effect can explain why a pitch baseball curves and a golf ball slices. The Magnus effect refers to the force created by the rotation of a spinning object, such as a baseball or a golf ball, which causes a pressure differential around the object.

This pressure differential then creates a force that can cause the object to curve or slice in a particular direction. In the case of a pitch baseball, the spin of the ball creates a pressure differential that causes it to curve, while in the case of a golf ball, the spin causes it to slice. So, the Magnus effect plays a key role in explaining the movement of both baseballs and golf ballsThe Magnus effect is a particular manifestation of Bernoulli's theorem: fluid pressure decreases at points where the speed of the fluid increases. In the case of a ball spinning through the air, the turning ball drags some of the air around with it

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The causes the electric field to become weaker, as the presence of the dielectric material reduces the overall capacitance of the capacitor.

The dielectric material like paper is inserted between the plates of a capacitor holding a charge, the electric field becomes weaker. This happens because the dielectric material reduces the effective electric field between the capacitor plates by aligning its internal dipoles with the field. As a result, the capacitance of the capacitor increases, allowing it to store more charge at the same voltage.Adding a dielectric allows the capacitor to store more charge for a given potential difference. When a dielectric is inserted into a charged capacitor, the dielectric is polarized by the field. The electric field from the dielectric will partially cancel the electric field from the charge on the capacitor plates.

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The correct answer is c. high frequency, short wave energy. Microwave ovens use a magnetron to convert electrical energy into high frequency, short wave energy that is used to cook food.

Microwave ovens that have magnetron tubes use electrical energy to generate high frequency, short wave energy. This energy is generated by the oscillations of electrons in a magnetic field that is generated by the magnetron tube. The high frequency, short wave energy that is emitted from the magnetron tube is what heats up the food and other materials inside the microwave oven. This energy is also known as microwaves. These microwaves travel through the metal walls of the oven, which reflects them back into the oven’s cavity.

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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 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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A warning tag attached to a locked-out switch should contain the following information: c. Signature of the person who locked out the switch and who will remove it. This ensures proper identification and responsibility for the lockout process, promoting safety and accountability in the workplace.

A warming tag is a type of tag that is attached to a locked-out switch. According to the Occupational Safety and Health Administration (OSHA), a warming tag attached to a locked-out switch should contain the signature of the person who locked out the switch and who will remove it.

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When resistors are connected in parallel, the total resistance is calculated as:

1/R(total) = 1/R(1) + 1/R(2) + 1/R(3) + ...

So for this question, we can plug in the values:

1/R(total) = 1/100 + 1/300 + 1/200

1/R(total) = 0.01 + 0.003333 + 0.005

1/R(total) = 0.019333

R(total) = 1/0.019333

R(total) = 51.67Ω

The electrical resistance of an object is a measure of its opposition to the flow of electric current. Its reciprocal quantity is electrical conductance, measuring the ease with which an electric current passes. Electrical resistance shares some conceptual parallels with mechanical friction. The SI unit of electrical resistance is the ohm (Ω), while electrical conductance is measured in siemens (S) (formerly called the 'mho' and then represented by ℧).

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The small line in an air-to-air split system heat pump is known as the liquid line.

Line sets consist of two semi-flexible copper pipes to connect the outdoor air conditioner or heat pump to the indoor evaporator coil. The smaller pipe is called the liquid line. The larger pipe is referred to as the suction line, and includes insulation. In most cases, a 3/8″ liquid line is a safe bet, but just like the suction line, there is some wiggle room depending on the system and the specific application.

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