The ampacities listed in Table 310.15(b)(16) are based on temperature alone and do not take _____ into account.

you will gain the same amount of potential energy regardless of the path you take

The potential energy gained depends on the height difference between the bottom and the top of the hill. Both paths will give you the same final potential energy, but the longer path will take more time and require more energy input to climb. Therefore, you will gain the same amount of potential energy regardless of the path you take. However, the longer path may require more physical effort and time to climb, even though it is less steep.

Learn more about potential energy at

brainly.com/question/24284560

#SPJ11

If an organism is classified in the animal kingdom, then it must Identify traits common to all animals and traits that can be used to distinguish groups of related animals.

The animal kingdom is the taxonomic kingdom that includes all animals, living or extinct. All animals on earth can be found in the taxonomic classification of the animal kingdom. Animals are classified into various subcategories to further define them, named as division, class, order, family, genus and species. Each classification is physically, anatomically or behaviorally in some way Similarities narrow as one moves down through divisions, classes, etc. until a unique species is defined.

We need to identify traits that are common to all animals and traits that can be used to distinguish between related animal groups. Animal classification systems group animals based on anatomy, morphology, evolutionary history, developmental traits, and genetic makeup.

To know more about taxonomic classification, visit:

https://brainly.com/question/24210954

#SPJ1

The complete question is as follows:

Complete the given sentence.

If an organism is classified in the animal kingdom, then it MUST_______.

The 3 inch outside the box rule does not apply in this case. The requirement for 6 inches of free conductor measured from the point in the box where the conductors enter the enclosure is sufficient.

Any material's conductance directly relates to how easily electric current can flow through it. Resistance's opposite is conductance. Both are inversely proportional: the higher the conductance, the lower the resistance, and vice versa (the higher the resistance, the less conductance).

One of the wires required in an electrical circuit is referred to as a grounded conductor. In essence, it acts as a neutral conductor.  In the past, it carried the current when everything were normal. While grounding, on the other hand, refers to a safety wire that is connected to the earth but does not now transmit via it

Since grounding wire is also known as a safety wire, only extreme situations, such as a short circuit, for it to carry current.

Learn more about Conductor here

https://brainly.com/question/14405035

#SPJ11

The correct answer is "the speed of light is different in the two media." Light refraction occurs at the interface between two different media because the speed of light is different in each medium.

When light passes from one medium to another, its speed changes and this causes the light waves to bend. This bending is known as refraction. Some of the light is also reflected at the interface, but the primary reason for refraction is the change in speed. The frequency of the light remains the same, but the direction of the light changes due to the refraction.

 Light refraction occurs at the interface between two different media because the speed of light is different in the two media. When light travels from one medium to another, its speed changes, causing the direction of the light to change as well. This bending of light is known as refraction.

Visit here to learn more about  refraction :
#SPJ11

The velocity of the trolley system with the block in it is 1.33 m/s.

Weight of the block, W = 30 N

Mass of the block, m = W/g

m = 30/10 = 3 kg

Mass of the trolley, M = 6 kg

Initial velocity of the trolley, u = 2 m/s

According to law of conservation of momentum,

In an isolated system, when two objects collide, the combined momentum before and after the collision is constant. Due to the fact that the momentum gained by one object equals the momentum lost by another, this occurs.

So, the momentum of the trolley system before and after dropping the block to it are equal.

Mu = (M + m)v

Therefore, the velocity of the trolley system with the block in it,

v = Mu/(M + m)

v = 6 x 2/(6 + 3)

v = 12/9

v = 1.33 m/s

To learn more about law of conservation of momentum, click:

https://brainly.com/question/1113396

#SPJ1

B) Globular clusters. Globular clusters are found almost exclusively in the halo of the Milky Way, rather than the disk.

The other objects mentioned, such as young stars, X-ray binaries, and high-mass red supergiant stars, are typically found in the disk of the Milky Way. Globular clusters are ancient, densely packed collections of stars that are typically found in galactic halos, rather than in the disks of galaxies. They are composed of some of the oldest stars in the universe, and are typically found in the halo regions of galaxies. X-ray binaries, high-mass, red supergiant stars, and young stars, on the other hand, are all typically found in the disks of galaxies, rather than in their halos.

learn more about Globular clusters Refer: https://brainly.com/question/15087030

#SPJ11

To disinfect a well, one should mix one quart of bleach in five gallons of water and pour it directly into the well.

Disinfecting a well is an important maintenance task to prevent the growth of harmful bacteria, viruses, and other microorganisms in the water supply. Bleach is a commonly used disinfectant for wells because it is effective at killing many types of microorganisms. The recommended concentration of bleach for well disinfection is 50-200 parts per million (ppm), which can be achieved by mixing one quart of household bleach (containing 5-6% sodium hypochlorite) in five gallons of water. This solution should be poured directly into the well and allowed to sit for several hours, typically 12-24 hours, to ensure thorough disinfection.

After the disinfection period, the well should be flushed with clean water until there is no bleach smell or taste. It is important to follow all recommended safety precautions when working with bleach, such as wearing protective gloves and eyewear and avoiding contact with skin or eyes. The well water should be tested after disinfection to ensure that the concentration of disinfectant is within the recommended range and that the water is safe for consumption.

To know more on disinfecting a well

https://brainly.com/question/10587479

#SPJ4

The object that will most likely absorb sound would be a blanket. That is option C

A sound energy is the type of energy that travels through vibrations in air and can be heard through human ears or detected using specialised equipments.

The properties of sound energy include the following:

Blankets are less solid in nature than rocks,wall and floors in which sound waves can easily bound off from.

Learn more about energy here:

https://brainly.com/question/25959744

#SPJ1

The ampacity of a conductor is listed in table 310.15(B)(3)(a) under the condition of no more than three current carrying conductors bundled together in raceway, cable or earth an ambient temperature of 86°F.

This table provides the allowable ampacities of insulated conductors operating in free air or in raceways, cables and earth, based on an ambient temperature of 86°F (30°C). The allowable ampacity is the maximum current, in amperes, that a conductor can carry continuously under the conditions stated in the NEC.

    The ampacities listed in the table are based on the assumption that no more than three current-carrying conductors are bundled together in a raceway, cable or earth. The ampacities in the table are also based on an ambient temperature of 86°F (30°C). If the ambient temperature is higher, the ampacity must be adjusted accordingly.

To learn more about ampacity click here https://brainly.com/question/29855050

#SPJ11

Answer:

Explanation:

1=3

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.

To learn more about ampacity and conductors, refer:

https://brainly.com/question/29855050

#SPJ4

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 centripetal acceleration of a point on the rim of a grindstone is determined by the formula a = v^2/r, where a is the acceleration, v is the velocity, and r is the radius of the circle. In this case, we assume that the grindstone is rotating at a constant speed, which means that the velocity of any point on the rim is constant.

Therefore, the magnitude of the centripetal acceleration depends only on the radius of the circle.Since the question does not provide any information about the radius of the grindstone, we cannot determine the magnitude of the centripetal acceleration. However, we can conclude that options A and B are incorrect because the centripetal acceleration cannot be zero if the grindstone is rotating, and it cannot be less than 0.5 m/s^2 because that is the minimum acceleration required to keep an object moving in a circle.
Therefore, the correct answer must be either C, D, or E, depending on the radius of the grindstone. If the radius is relatively small, the acceleration will be closer to 4.0 m/s^2 (option E), while if the radius is relatively large, the acceleration will be closer to 1.0 m/s^2 (option C). The centripetal acceleration of a point on the rim of a grindstone is determined by the formula a = v^2/r, where a is the acceleration, v is the velocity, and r is the radius of the circle. In this case, we assume that the grindstone is rotating at a constant speed, which means that the velocity of any point on the rim is constant.
In summary, the magnitude of the centripetal acceleration of a point on the rim of a grindstone depends on the radius of the circle and is given by the formula a = v^2/r. We cannot determine the exact answer without knowing the radius of the grindstone, but we can eliminate options A and B as incorrect.

learn more about speed here

https://brainly.com/question/8518482

#SPJ11

The wheel rotated 150 revolutions during the 5.0 seconds of braking. The closest option is c.

To answer this question, we need to know the rate of rotation of the wheel. Let's call this rate "r". We can find "r" by dividing the initial speed of the wheel by its radius:

r = v / r

r = 20 m/s / 0.5

r = 40 rev/s

Now we can use the formula for rotational motion:

θ = ωt + 1/2 αt²

where θ is the angle of rotation, ω is the initial angular velocity (in rev/s), t is the time, and α is the angular acceleration (which is negative in this case, since the wheel is slowing down).

We want to find θ when t = 5.0 s. We know that ω = 40 rev/s and α = -4 rev/s² (since the wheel is slowing down at a rate of 4 rev/s every second).

θ = ωt + 1/2 αt²

θ = (40 rev/s)(5.0 s) + 1/2 (-4 rev/s²)(5.0 s)²

θ = 200 rev - 50 rev

θ = 150 rev

Therefore, the wheel rotated 150 revolutions during the 5.0 seconds of braking. The answer is not listed, but the closest option is C) 9.6 rev, which is incorrect.

More on revolutions: https://brainly.com/question/5957134

#SPJ11

The gel electrophoresis method was used to detect the reaction product in the primer extension technique for SNP identification.

In the primer extension technique for single nucleotide polymorphism (SNP) identification, the reaction product is detected using a method called gel electrophoresis.

The primer extension technique involves designing a specific primer that hybridizes to a region of interest on a DNA template.

The primer is then extended using a DNA polymerase enzyme in the presence of a dideoxynucleotide triphosphate (ddNTP), which is labeled with a fluorescent dye. If the ddNTP matches the SNP, then the primer will be extended by one nucleotide, creating a product that is one base longer than the original primer.

The gel is then visualized using a fluorescent imaging system, which detects the fluorescence emitted by the labeled ddNTPs.

By comparing the size and fluorescent intensity of the reaction product with a set of size standards and controls, the presence or absence of the SNP can be determined.

In summary, the primer extension technique for SNP identification uses gel electrophoresis to separate and detect the reaction product, which is labeled with a fluorescent dye.

This technique is widely used in molecular biology and genetics research for SNP genotyping and other applications.

For similar questions on gel electrophoresis

https://brainly.com/question/27283978

#SPJ11

Unfortunately, without knowing more information about the specific situation and parameters of the coil being rotated, I cannot provide a numerical answer for the magnitude of the total magnetic flux Φfinal through the coil after it is rotated. However, I can explain some relevant concepts related to the terms you provided.

Magnitude refers to the size or quantity of a physical property or measurement. In the case of magnetic flux, the magnitude would refer to the strength or amount of the flux passing through a given area.

Rotated implies that the coil has been turned or twisted in some way, potentially changing the orientation of the magnetic field passing through it and thus affecting the magnitude of the magnetic flux.

Significant digits are the digits in a number that contributes to its precision or accuracy. When expressing an answer to a numerical problem, it is typically recommended to include a certain number of significant digits to reflect the precision of the measurement or calculation. In this case, the instruction to provide the answer "to at least three significant digits" means that the final numerical answer should include three digits that are considered significant, meaning they are not zeros and are contributing to the precision of the measurement.
To calculate the magnitude of the total magnetic flux (Φ_final) through the coil after it is rotated, I need more information about the coil, such as its area, the number of turns, and the magnetic field it is subjected to. Please provide these details, and I can help you with the calculation.

Learn more about the precision here:- brainly.in/question/13549.

#SPJ11

1.8 x 10-3 N to the left is the strength and guidance of the net electrostatic force on q1.

The size of each charge & the separation between them determine how much electrostatic force there will be. When two charges of the same type are brought together, whether positive or Two charges positioned apart are subject to the electrostatic force., they repel one another.

The mathematical formula for the electrostatic attraction between two objects was initially published by a Frenchman named Charles Coulomb. The force between the charged points can be calculated using Coulomb's law. Its formula is F=k|q1q2|r2, where q1 as well as q2 correspond to two point charges that are separated from one another by r, and where k=8.99109Nm2/C2.

To know more about electrostatic force visit:

https://brainly.com/question/9774180

#SPJ1

The Human Movement System's relative ability to produce, reduce, and dynamically stabilize forces in all three planes of motion is defined as the system's neuromuscular efficiency. Neuromuscular efficiency refers to the ability of the nervous system and musculoskeletal system to work together to produce efficient movement patterns.

The human body moves in three planes of motion - sagittal (forward and backward), frontal (side-to-side), and transverse (rotational).

The neuromuscular system is responsible for controlling these movements and stabilizing the body during physical activity. Neuromuscular efficiency is essential for optimal performance, injury prevention, and overall functional movement.
The Human Movement System's ability to produce, reduce, and dynamically stabilize forces in all three planes of motion is referred to as neuromuscular efficiency.

This system plays a crucial role in movement patterns and physical activity and is essential for optimal performance and injury prevention.

For more information on planes of motion kindly visit to

https://brainly.com/question/30463256

#SPJ11

Both the light woman and the heavy man will eventually reach the same terminal velocity, which is the maximum speed that an object can achieve while falling through the air.

This is because terminal velocity is determined by the air resistance that the object experiences, which depends on its size, shape, and speed. However, the heavier man will initially fall faster than the lighter woman due to the force of gravity being stronger on him. As they continue to fall, the air resistance will increase until it matches the force of gravity, at which point they will reach terminal velocity. The heavy man will reach terminal velocity first because his greater mass causes a higher gravitational force acting on him, which in turn leads to a faster acceleration until he reaches terminal velocity. The light woman will experience a smaller gravitational force and will take longer to reach terminal velocity. Therefore, the heavy man will reach zero acceleration (terminal velocity) first, but the light woman will catch up and eventually reach the same speed.

Learn more about resistance here: https://brainly.com/question/30799966

#SPJ11

The maximum continuous load permitted on the overcurrent protection device is 192 amps.

The maximum continuous load permitted on an overcurrent protection device is limited to 80% of the device rating.

To calculate this, first we need to find the value of 210-20(A) in the given expression:

240 - (210-20(A))

= 240 - 210 + 20(A)

= 30 + 20(A)

Now, according to the National Electrical Code (NEC), the maximum continuous load on an overcurrent protection device should not exceed 80% of the device rating. In other words, the device should be rated at least 125% of the continuous load.

In this case, the expression 30 + 20(A) represents the continuous load, and the overcurrent protection device is rated at 240 amps. Therefore, the maximum continuous load permitted on the device is:

80% of 240 = 0.8 x 240 = 192 amps

So, the maximum continuous load permitted on the overcurrent protection device is 192 amps.

Learn more about overcurrent protection

brainly.com/question/31456221

#SPJ11

Based on the information provided, the ampacity of the insulated three-conductor copper cable with a conductor size of No. 4/0 AWG, MV-105, and voltage range of 2001 to 5000 would depend on the temperature rating of the cable.
the calculation as they are not the operating conditions for the cable.

Therefore, the answer to the question cannot be determined with the given information. However, the given temperatures of 90 C (194 F) for the conductor and 40 C (104 F) for the ambient air are not applicable to the calculation as they are not the operating conditions for the cable. To determine the correct ampacity, the table 310-71 must be referenced using the correct temperature ratings for the cable's operating conditions. The ampacity is the maximum current that can be carried safely by the conductor without exceeding its temperature rating.

learn more about conductor here

https://brainly.com/question/31561873

#SPJ11

At the spring's maximum compression, the system's total mechanical energy (E) is 16 J.

In order to calculate the block's kinetic energy after compressing the spring by 0.20 m, we can apply the concept of mechanical energy conservation. As long as no external forces (like friction) are exerted on the block-spring system, its mechanical energy stays constant.

Due to its initial velocity and height above the ground, the block contains both kinetic energy (KE) and potential energy (PE). The block loses height as it ascends the slope, gains potential energy, and loses kinetic energy when the spring contracts.

The following provides the mechanical energy formula:

E = KE + PE

where PE stands for potential energy and KE for kinetic energy.

The block's initial kinetic energy is listed as 16 J. The following formula can be used to determine the block's initial potential energy:

PE = mgh

where m is the block's mass, g is its gravitational acceleration, and h is its height above the ground. Since the block is projected up the slope, the height h can be calculated as follows:

h = d₀×sinθ

where theta is the plane's angle of inclination and d₀ is the block's initial separation from the relaxed spring's end.

Given:

d₀ = 0.60 m

θ = 40°

m = 1.0 kg

g = 9.8 m/s²

Substituting these values into the equation for potential energy, we get:

PE = 1.0 ×9.8 × 0.60 × sin(40) = 3.94 J

So, the initial mechanical energy (E) of the block-spring system is:

E = 16 + 3.94 = 19.94 J

The spring comes to a brief rest at its maximal compression when the block compresses it by 0.20 m. All of the system's mechanical energy is now transformed into potential energy that is stored in the compressed spring. As a result, the block's kinetic energy at this precise moment is 0. J.

The conservation of mechanical energy to determine the kinetic energy with which the block must be accelerated up the incline in order to momentarily stop when it has compressed the spring by 0.40 m. the mechanical energy of the system is equal to the sum of the kinetic and potential energies when the spring is compressed to its maximum length. In this instance, the potential energy will be determined by multiplying the spring's maximum compression by its spring constant.

The following is the formula for the spring's potential energy:

P.Espring = (1/2)× k × x²

where k is the spring constant and x is the maximum compression of the spring.

Given:

k = 200 N/m

x = 0.40 m

Substituting these values into the equation for potential energy of the spring, we get:

P.Espring = (1/2) × 200 × (0.40)² = 16 J

The block's kinetic energy at this precise moment is zero J because it temporarily comes to rest at the point of the spring's maximum compression.

Therefore, the block must be launched up the incline with an initial kinetic energy of 16 J in order to momentarily stop when the spring is squeezed by 0.40 m.

To know more about spring's

https://brainly.com/question/16217373

#SPJ4

The well needs 7.94 pounds of chlorine gas to meet the water quality objectives.

To calculate the pounds of chlorine gas required per day, we need to convert the flow rate and dosage into consistent units.

First, we convert the flow rate of 2000 gallons per minute to pounds per day.

2000 gpm x 60 minutes x 24 hours = 2,880,000 gallons per day

1 gallon of water weighs approximately 8.34 pounds, so 2,880,000 gallons weigh:

2,880,000 gallons x 8.34 pounds/gallon = 24,019,200 pounds per day

Next, we convert the chlorine dosage of 2.5 gpm to pounds per day:

2.5 grams per minute x 60 minutes x 24 hours = 3,600 grams per day

1 pound is equivalent to 453.59 grams, so we convert the dosage to pounds:

3,600 grams per day / 453.59 grams per pound = 7.94 pounds per day

Therefore, the well needs 7.94 pounds of chlorine gas to meet the water quality objectives.

Learn more about  chlorine gas

https://brainly.com/question/13123721

#SPJ4

When using presettling reservoirs to eliminate heavy turbidity or pollution before treatment, the desirable retention time is typically 2 to 3 days.

This allows sufficient time for the heavy particles to settle to the bottom of the reservoir and the clearer water to move to the treatment process. A retention time of 8 hours or 1 week may not be sufficient for effective settling, while a retention time of 1 month or longer may not be practical due to space and time constraints.

To know more about reservoirs, please click on:

https://brainly.com/question/482974

#SPJ11

True. When IMC is installed through bored or punched holes in framing members, additional support requirements are not necessary, whether the framing members are made of wood or metal.

The National Electrical Code (NEC) requires that when metal framing is used, the IMC must be secured within 8 inches of each box, outlet, or junction, and it must be supported at least every 10 feet. When wood framing is used, the IMC must be secured within 8 inches of each box, outlet, or junction, and it must be supported at least every 4 1/2 feet. However, this support is intended to keep the pipe from becoming displaced, and not to provide additional support for the pipe.

To learn more about metal click here https://brainly.com/question/15723396

#SPJ11

The measure that is used to determine the loudness of a sound is the decibel.

Hertz refers to the frequency of a sound wave, while amplitude refers to the height of the wave.
 A person's perception of loudness is influenced by the amount of sound they hear. A sound's volume is determined by its intensity, which is itself governed by its frequency. Sounds are measured by their intensity or the energy they hold. Intensity is measured in decibels (dB). In this way, the loudness of sounds is determined by its intensity. There are two factors that determine how intense a sound is: the size of the sound waves and the distance from their source.

To know more about intensity please vist :-

https://brainly.com/question/17323212

#SPJ11

The Sun has an absolute magnitude of 4.8 and a temperature of around 5,800 K. When you plot the Sun's location on the H-R diagram based on these values, you'll find that it falls under the spectral class G.

The Sun is specifically classified as a G2V star, where 'G' represents its temperature range and color (yellow), '2' indicates its position within the G class, and 'V' designates its luminosity class (dwarf).

So, our Sun belongs to the G spectral class on the H-R diagram. In Exercise 20.6, we are asked to plot the location of the sun on the Hertzsprung-Russell (H-R) diagram and determine its spectral class.

The H-R diagram is a plot of a star's magnitude (brightness) versus its temperature. The absolute magnitude of the sun is 5 and its temperature is greater than 5,800 K, which places it in the upper-left corner of the H-R diagram.

To determine the sun's spectral class, we can use the information from its temperature and magnitude. The sun is a G-type star, which means it has a surface temperature between 5,000-6,000 K and a yellowish color.

The spectral class of a star is determined by its spectral lines, which are produced by the absorption of light by elements in the star's atmosphere. In conclusion, the sun's location on the H-R diagram indicates its magnitude and temperature, and its spectral class is G.

To know more about light click here

brainly.com/question/9695421

#SPJ11

A capacitance of 11.81 microfarads (μF) would be required to correct the power factor of the inductive load.

To calculate the capacitance required to correct the power factor of the inductive load, we need to use the following formula:

C = (1000 * P * tan(φ)) / (2π * f * V^2)

Where:
- C is the capacitance in Farads
- P is the apparent power in VA (volt-amperes)
- φ is the phase angle between voltage and current
- f is the frequency in Hz
- V is the voltage in volts

Given:
- V = 120 V (rms)
- f = 60 Hz
- P = 5 kW = 5000 VA
- power factor = 0.8
- we know that power factor = cos(φ)

So, we can calculate the phase angle as:
φ = acos(power factor) = acos(0.8) = 36.87 degrees

Then, we can calculate the reactive power as:
Q = P * tan(φ) = 5000 * tan(36.87) = 3644.67 VAR (volt-ampere reactive)

Now, we can use the formula to calculate the capacitance:
C = (1000 * P * tan(φ)) / (2π * f * V^2) = (1000 * 5000 * tan(36.87)) / (2π * 60 * 120^2) = 11.81 microfarads (μF)

To learn more about voltage click here

brainly.com/question/13521443

#SPJ11

The given statement "In general, as a reaction proceeds to make more products, reaction rate decreases" is true.

This is because as the concentration of reactants decreases, there are fewer collisions between particles, leading to a slower rate of reaction. Additionally, some reactions may also be limited by factors such as the availability of reactants or the presence of catalysts.

However, there are some reactions where the opposite may be true, such as in a chain reaction where the formation of one product can trigger the formation of more products, leading to an increase in reaction rate.

For more such questions on reaction, click on:

https://brainly.com/question/28825595

#SPJ11

A 4 AWG copper conductor would be suitable for this application.

The first step is to simplify the expression inside the parentheses:

(240-3)(310-15(A)(16)) = (237)(310-240A)

Then, we can use the formula I = P/V to determine the current (I) required for a 70 ampere load, given the power (P) and voltage (V). Assuming a standard voltage of 120V, we get:

I = P/V = 8400W/120V = 70A

Since the breaker and load are both 70A, we need a conductor that can handle at least 70A. To account for potential heat buildup, we will use the 75 degrees C ampacity rating for the conductor.

Consulting a wire ampacity chart, we find that a 4 AWG copper conductor has an ampacity of 85A at 75 degrees C, which is more than enough for the 70A load. Therefore, a 4 AWG copper conductor would be suitable for this application.

Learn more about AWG copper

https://brainly.com/question/14868648

#SPJ4