Terminal Rating(110-14(C)(1): What is the minimum size THHN conductor required for a 150 ampere circuit breaker or fuse? Be sure to comply with the requirements of Section 110-14(C)(2).

Answers

Answer 1

According to Terminal Rating (110-14(C)(1)), the minimum size THHN conductor required for a 150 ampere circuit breaker or fuse is 1/0 AWG.

However, it is important to comply with the requirements of Section 110-14(C)(2), which states that the conductor must be sized to carry at least 125% of the continuous load or 100% of the non-continuous load. Therefore, the actual minimum size THHN conductor required for a 150 ampere circuit breaker or fuse would be calculated as follows:
Continuous Load = 150 amperes
125% of Continuous Load = 1.25 x 150 = 187.5 amperes
Minimum THHN Conductor Size = 1/0 AWG (satisfies 187.5 amperes)
So, to meet the requirements of both Terminal Rating (110-14(C)(1)) and Section 110-14(C)(2), the minimum size THHN conductor required for a 150 ampere circuit breaker or fuse is 1/0 AWG.

To know more about Terminal Rating (110-14(C)(1)), please click on:

https://brainly.com/question/31566499

#SPJ11


Related Questions

Which intermodal option combines truck and rail transportation with conventional road trailers carried atop rail flatcars for the long (line-haul) segment of the transit? a. Trailer Parkb. Birdybackc. Container on Flatcard. Trailer on Flatcare. Container Shipping

Answers

Intermodal option combines truck and rail transportation with conventional road trailers carried atop rail flatcars for the long (line-haul) segment of the transit (d). Trailer on Flatcar is correct option.

For the long-distance (line-haul) leg of transit, trailer on flatcar, sometimes referred to as TOFC or piggyback, combines truck and rail transportation. In this manner, pickup and delivery at the origin and destination sites are handled by trucks while standard road trailers, or "pigs," are loaded onto rail flatcars and transported by rail for the long run. This enables the use of trucks' flexibility for the initial and last miles of transit while still utilizing the long-distance efficiency of rail transportation.

To know more about Intermodal

https://brainly.com/question/14310766

#SPJ4

Typical filtration rates for dual media filters in conventional treatment plants are

Answers

Typical filtration rates for dual media filters in conventional treatment plants can vary, but generally range from 2 to 6 gallons per minute per square foot of filter media.

The media used in these filters typically consists of a combination of sand and anthracite, with the sand providing larger pores for initial filtration and the anthracite providing smaller pores for final filtration. These filters are an important component of conventional treatment plants, as they help to remove suspended particles and impurities from water before it is disinfected and distributed for use.  Dual media filters, which often consist of layers of sand and anthracite, provide improved filtration efficiency and increased filter run times compared to single-media filters.

Learn more about plants here:

brainly.com/question/15092720

#SPJ11

blocks a, b, and c are aligned along a straight line on a horizontal frictionless surface. the masses of the blocks are m, 2m, and 3m, respectively. block a is initially moving to the right along the same line at a speed v, as shown in the figure above. blocks b and c are initially at rest. block a collides with and sticks to block b. the two blocks then collide with and stick to block c. what is the speed of block c after the collisions?

Answers

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.

Learn more about Momentum

https://brainly.com/question/1042017

#SPJ1

In general, as a reaction proceeds to make more products, reaction rate decreases
true or false?

Answers

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 simple circuit consists of a battery, light bulb, and connecting wires. How does the current at point B, near the negative terminal of the battery, compare with the current at point A, near the positive terminal of the battery.

Answers

In a simple circuit that consists of a battery, light bulb, and connecting wires, the current at point B, near the negative terminal of the battery, is equal in magnitude to the current at point A, near the positive terminal of the battery.

This is because the current flows in a closed loop, starting from the positive terminal of the battery, flowing through the light bulb and returning back to the negative terminal of the battery. Therefore, the current is the same at any point in the circuit. However, the direction of the current flow is opposite at the negative and positive terminals of the battery. At the negative terminal, the current flows from the battery to the circuit, while at the positive terminal, it flows from the circuit to the battery.

To know more about simple circuit click here:

https://brainly.com/question/22667470

#SPJ11

in which two ways does inertia affect the motions of the planets?
• A. It keeps the planets from being pulled into the Sun by the Sun's
gravity.
• B. It keeps the planets from flying off into space, out of the solar
system.
C. It causes the planets to keep moving in the same direction as they
did when they formed.
• D. It causes all the planets to move at the same speed throughout
their orbits.

Answers

The two ways that inertia affect the motions of the planets are:


B. It keeps the planets from flying off into space, out of the solar system.

C. It causes the planets to keep moving in the same direction as they did when they formed.

How does inertia affect the motions of the planets in these ways?

Inertia helps to keep planets in their orbits around the Sun, preventing them from flying off into space. As the planets move around the Sun, they are constantly pulled by the Sun's gravity towards the center of their orbit. However, due to their inertia, they continue to move forward, and the resulting combination of the inward pull of gravity and the outward motion due to inertia causes the planets to move in stable, elliptical orbits.

The planets formed from a cloud of gas and dust that was rotating in a particular direction. Due to the conservation of angular momentum, this rotation was transferred to the planets as they formed, causing them to continue to rotate in the same direction as they did when they formed. This is an example of how inertia affects the motion of the planets.

Learn about motions of planet here https://brainly.com/question/986278

#SPJ1

Question 63 Marks: 1 Everyone is subject to natural background radiation.Choose one answer. a. True b. False

Answers

Everyone is subject to natural background radiation is (a). true statement because natural background radiation, which includes radiation from the environment and natural sources including radon gas from the ground, cosmic rays from space, and radioactive elements in the earth's crust, is a risk to everyone.

Humans are inevitably exposed to this type of radiation on a regular basis, albeit the amounts differ according to altitude, geography, and other factors. The amount of ionizing radiation in the environment at a specific location that isn't the result of intentional introduction of radiation sources is known as background radiation.

There are many different natural and man-made sources of background radiation. In addition to man-made medical X-rays, radioactive fallout from nuclear weapons testing, and nuclear accidents, these include cosmic radiation as well as environmental radioactivity from naturally occurring radioactive minerals (such as radon and radium).

To know more about natural

https://brainly.com/question/10423822

#SPJ4

(240)(240-60(c), 240-83(c) Overcurrent devices must be designed and rated to clear fault current and must have a short-circuit interrupting rating sufficient for the available fault levels. The minimum interruption rating for circuit breakers is _____ ampere and ____ ampere for fuses.

Answers

The summary, the minimum interruption rating for circuit breakers is 5,000 amperes, and 10,000 amperes for fuses, according to the [tex]NEC[/tex].

Why will be Overcurrent devices must be designed?

According to the National Electrical Code[tex](NEC)[/tex] sections [tex]240-60(c)[/tex] and [tex]240-83(c)[/tex], overcurrent devices must be designed and rated to clear fault current and must have a short-circuit interrupting rating sufficient for the available fault levels.

The minimum interruption rating for circuit breakers is 5,000 amperes, and 10,000 amperes for fuses.

The interrupting rating of an overcurrent device refers to its ability to safely interrupt or break the circuit during a short circuit or fault condition.

The interrupting rating is determined by the available fault current at a specific location and is expressed in amperes.

For circuit breakers, the [tex]NEC[/tex] requires a minimum interrupting rating of 5,000 amperes.

This means that the circuit breaker must be able to safely interrupt or break the circuit during a fault condition with a maximum available fault current of 5,000 amperes.

For fuses, the [tex]NEC[/tex] requires a minimum interrupting rating of 10,000 amperes. This means that the fuse must be able to safely interrupt or break the circuit during a fault condition with a maximum available fault current of 10,000 amperes.

It's important to note that the interrupting rating is just one of several factors to consider when selecting an overcurrent device.

Other factors include the continuous current rating, the trip curve, and the voltage rating.

The selected overcurrent device must be able to handle the expected load and any anticipated fault conditions.

In summary, the minimum interruption rating for circuit breakers is 5,000 amperes, and 10,000 amperes for fuses, according to the [tex]NEC[/tex].

Learn more about interruption

brainly.com/question/29770273

#SPJ11

23. What is the instantaneous tangential speed of the passengers 15 s after the acceleration begins?
A) 0.067 m/s
B) 0.50 m/s
C) 1.4 m/s
D) 7.5 m/s
E) 11 m/s

Answers

To find the instantaneous tangential speed of passengers 15 seconds after acceleration begins, we need the initial velocity and acceleration values. Then, we can use the linear motion formula to calculate the speed at that specific time.

To determine the instantaneous tangential speed of passengers 15 seconds after acceleration begins, we need more information about the acceleration and initial velocity. However, I can provide a general explanation of these terms and how to solve such a problem.
Instantaneous speed refers to the speed of an object at a specific moment in time. In this case, it's the speed of the passengers 15 seconds after the acceleration starts.
Tangential speed refers to the linear speed of an object as it moves along a circular path. In this context, passengers are assumed to be moving in a circular motion, and we need to find their speed at the specified time.
Once we have the initial velocity (v0), acceleration (a), and time (t = 15 seconds), we can use the formula for final velocity (v) in linear motion:
v = v0 + at
If given the necessary values, we could plug them into the formula to find the instantaneous tangential speed at t=15s and choose the correct answer among the given options (A, B, C, D, or E).
In summary, to find the instantaneous tangential speed of passengers 15 seconds after acceleration begins, we need the initial velocity and acceleration values. Then, we can use the linear motion formula to calculate the speed at that specific time.

learn more about tangential here

https://brainly.com/question/14993737

#SPJ11

If fusion reactions were to suddenly shut off in the Sun, how would we be able to tell?

Answers

If fusion reactions in the Sun suddenly shut off, we would be able to tell by observing a decrease in the Sun's energy output and changes in its surface features.

Fusion reactions in the Sun's core are responsible for producing the energy that the Sun emits as light and heat. If these reactions were to suddenly shut off, the Sun's energy output would decrease, and we would observe a reduction in the amount of light and heat reaching Earth. We could measure this decrease in energy output using instruments such as satellites and telescopes. In addition to changes in the Sun's energy output, we would also expect to see changes in its surface features. The Sun's surface is constantly in motion due to the convection of its plasma, which is driven by the energy produced in the core. If the energy production were to stop, the convection would also stop, leading to changes in the Sun's magnetic field and surface features such as sunspots and solar flares. We could observe these changes using telescopes that are designed to capture images of the Sun's surface.

Learn more about fusion reactions here:

https://brainly.com/question/11114418

#SPJ11

If the Earth were to shrink in size until it became a black hole, its Schwarzschild radius would be:

Answers

The Schwarzschild radius of Earth is 0.9 centimeters if it were to become a black hole.

The Schwarzschild radius is the distance from the center of an object at which the escape velocity becomes equal to the speed of light, and thus, the object becomes a black hole.

If the Earth were to shrink in size until it became a black hole, its Schwarzschild radius would be 0.9 centimeters.

This means that if the Earth were compressed to a size smaller than 0.9 centimeters, it would become a black hole. However, it is impossible for Earth to collapse to such a small size due to the repulsive forces between particles.

In summary, if the Earth were to become a black hole, its Schwarzschild radius would be 0.9 centimeters, but it is unlikely to happen in reality.

For more such questions on Schwarzschild radius, click on:

https://brainly.com/question/12647190

#SPJ11

if you connect a pair of 1-ohm resistors in series, their combined resistance will be, if they are connected in parallel, the resistance will be?

Answers

The combined resistance of two 1-ohm resistors in series is 2 ohms, while the combined resistance of the same resistors in parallel is 0.5 ohms.

Resistors in series add up their individual resistances, so when two 1-ohm resistors are connected in series, their combined resistance is the sum of 1 ohm + 1 ohm = 2 ohms.

On the other hand, when resistors are connected in parallel, their combined resistance is less than the individual resistance of each resistor. This is because the current has multiple paths to flow through, reducing the overall resistance.
The way resistors are connected impacts their combined resistance. When in series, the resistances add up, and when in parallel, the resistances decrease.

For more information on resistors kindly visit to

https://brainly.com/question/15242615

#SPJ11

(310-15(3)) Where conductors of different insulation are associated together, the limiting temperature of any conductor shall not be exceeded.(True/False)

Answers

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.

Learn more about conductors here: https://brainly.com/question/8426444

#SPJ11

Please Help! It’s Greatly Appreciated! Will Mark as Brainliest!

Answers

Refer to the attached image.

What type of electromagnetic radiation is light with a wavelength of 10 meters? Use the electromagnetic spectrum show.

Answers

The type of electromagnetic radiation is Radiowaves which have a wavelength of 10 meters.

Since these waves have a longer wavelength, they are used for communication over long distances. Some examples of sources that emit these radiations - radiowaves - are TV and radio stations, cell phone towers, as well as satellites.

Radio waves are very beneficial as they can travel long distances without any power losses and getting absorbed or scattered by the atmosphere. Also, radio waves are non-ionizing and generally considered safe for human exposure. They are widely used in many applications, including broadcasting, navigation, remote sensing, and medical imaging.

For more info on electromagnetic radiation visit,

https://brainly.com/question/10759891

#SPJ4

Conductor Sizing(310-106(a): The smallest size conductor permitted for branch circuits, feeders, and services for residential, commercial, and industrial locations is _____.

Answers

The smallest size conductor permitted for branch circuits, feeders, and services for residential, commercial, and industrial locations is 14 AWG.

The smallest size conductor permitted for branch circuits, feeders, and services for residential, commercial, and industrial locations is #14 AWG (American Wire Gauge) for copper and #12 AWG for aluminum or copper-clad aluminum. However, there are some exceptions to this rule, such as certain motor circuits and special applications, which may require larger conductor sizes.

AWG stands for American Wire Gauge, which is a standardized system used for measuring the diameter of electrically conducting wire. It is commonly used in North America for both copper and aluminum wire, and it assigns a specific numerical value to each wire size, ranging from 0000 (largest) to 40 (smallest). As the AWG number increases, the diameter of the wire decreases. The AWG system is used to ensure consistency in wire sizing across different manufacturers and applications.

To know more about conductor

brainly.com/question/8426444

#SPJ11

What is the recommended minimum water pressure in a water distribution system at any time, including fire flow conditions?
a) Greater than Zero
b) 10 psi
c) 20 psi
d) 30 psi

Answers

The prescribed minimum water pressure in a water distribution system is not less than option C: 20 psi at ground level, at any time, including fire flow conditions.

However, the minimum pressure shouldn't be less than 25 psi when there is a maximum instantaneous demand. The distribution system's typical working pressure shouldn't be lower than 35 psi. Pressure reduction devices should be used to control pressures that could be higher than 90 psi.

In order to keep pressure within a desirable range across a distribution system, which may have different terrain and water demand, pressure control is necessary. Effective pressure control can reduce main breaks, maintain excellent water quality, and reducing water waste and increasing energy efficiency.

To know more about water distribution, refer:

https://brainly.com/question/20713735

#SPJ4

the point is at one corner of the rectangle and the component bodies are: a uniform disk of radius and mass . a uniform rod of length and mass . a uniform rectangle with side lengths and , and mass . a point mass at with mass . what is the moment of inertia about the axis through the point ?

Answers

The moments of inertia for all component bodies is [tex]I_{1}[/tex]+ [tex]I_{2}[/tex] + [tex]I_{3}[/tex] + [tex]I_{4}[/tex].

To calculate the moment of inertia about the axis through the point at one corner of the rectangle, we need to consider the individual moments of inertia of each component body and then sum them up. Here's the calculation for each component:
1. Uniform disk of radius (r) and mass ([tex]m_{1}[/tex]):
Moment of inertia  [tex]I_{1}[/tex] = (1/2) * [tex]m_{1}[/tex] *[tex]r^{2}[/tex]
2. Uniform rod of length (L) and mass ([tex]m_{2}[/tex]):
Moment of inertia [tex]I_{2}[/tex]= (1/3) * [tex]m_{2}[/tex] *[tex]L^{2}[/tex]
3. Uniform rectangle with side lengths (a) and (b), and mass ([tex]m_{3}[/tex]):
Moment of inertia  [tex]I_{3}[/tex] = (1/12) * [tex]m_{3}[/tex] * ([tex]a^{2}[/tex] + [tex]b^{2}[/tex])
4. Point mass ([tex]m_{4}[/tex]V) at a distance (d) from the axis:
Moment of inertia  [tex]I_{4}[/tex] = [tex]m_{4}[/tex] * [tex]d^{2}[/tex]

Learn more about inertia here: https://brainly.com/question/3268780

#SPJ11

these columns go deep into the ground, connecting the earth to the sky, forming the axis of the universe. a. the wheel of the law b. columns of ashoka c. the cosmic mountain d. columns of kanishka

Answers

The columns that go deep into the ground, connecting the earth to the sky and forming the axis of the universe are the cosmic mountain.

In Hindu mythology, the cosmic mountain, known as Mount Meru, is believed to be the center of the universe and is connected to the heavens and the earth. It is said to be so tall that its peak reaches the heavens, and so deep that its roots go all the way to the underworld. The cosmic mountain is often depicted in art and architecture, including the columns of ancient Indian emperors.

Therefore, the columns mentioned in the question, including the wheel of the law, columns of Ashoka, and columns of Kanishka, are not the columns that connect the earth to the sky and form the axis of the universe. Instead, it is the cosmic mountain that holds this significance in Hindu mythology.

To know more about universe, visit;

https://brainly.com/question/28365362

#SPJ11

wo wind turbines with different length blades are rotating. Consider what needs to happen in order to change the angular speed of one of the turbines. If the turbine is to spin more quickly, should the angular acceleration, a be positive or negative?O a should be positive. O a should be negative. O'We cannot tell which direction a should be without knowing the direction of the angular velocity

Answers

If one of the wind turbines with different length blades is to spin more quickly, the angular acceleration, a should be positive. This means that the rate of change of the angular velocity should be in the direction of increasing speed.

To change the angular speed of one of the wind turbines with different length blades, you would need to adjust the angular acceleration (a). If the turbine is to spin more quickly, the angular acceleration (a) should be positive. A positive angular acceleration indicates an increase in angular speed, while a negative value would indicate a decrease in angular speed.

The angular acceleration is the time rate of change of the angular velocity and is usually designated by α and expressed in radians per second per second. For the case in which the angular velocity is uniform (nonvarying), θ = ωt and α = 0. If α is uniform but not zero, ω = αt and θ = 1/2αt².

Visit here to learn more about  angular acceleration : https://brainly.com/question/30237820
#SPJ11

(Table 310-15(a)(16)):What is the ampacity of No. 8 THHN conductors when installed in a walk in cooler if the ambient temperature is 50F?

Answers

According to Table 310-15(a)(16) of the National Electrical Code (NEC), the ampacity of No. 8 THHN conductors for a temperature of 50°F is 50 amperes.

However, the ampacity of the conductors depends on other factors as well, such as the length of the conductors, the type of insulation used, the number of conductors in the conduit, and the ambient temperature of the location where the conductors are installed. It is important to properly size the conductors based on all these factors to ensure safe and efficient operation of the electrical system.

Learn more about National Electrical Code

https://brainly.com/question/17215290

#SPJ4

(110-14(c)(1) )What size THHN conductor is required for a 50 ampere circuit, listed for use at 60 degrees C?

Answers

A THHN conductor with a size of #6 AWG is required for a 50-ampere circuit at 60 degrees Celsius.

According to 110-14(c)(1), a conductor must be sized based on the ampacity (current-carrying capacity) it can handle.

For a 50 ampere circuit, a THHN conductor with an ampacity of at least 50 amperes is required. However, the ampacity of a conductor can also depend on its temperature rating. Since this question specifies a temperature rating of 60 degrees Celsius, we need to consult the ampacity tables for THHN conductors rated for 60 degrees Celsius. According to the table, a THHN conductor with a size of #6 AWG is required for a 50-ampere circuit at 60 degrees Celsius.

To learn more about conductor, refer:-

https://brainly.com/question/8426444

#SPJ11

chapter 1que 32The density of lead is 11.4 g/cm3 at 25°C. Calculate the volume occupied by 25.0 g oflead.A) 2.19 cm3 B) 0.456 cm3 C) 285 cm3 D) 1.24 cm3 E) 6.05 cm3

Answers

The density of lead is 11.4 g/cm3 at 25°C and the volume occupied by 25.0 g of lead is 2.19 cm3. Hence, option A is the correct option.

The formula to calculate the volume (V) of a substance is:

V = m / ρ

Here, m is the mass of the substance and ρ is its density so in this case, we have:

m = 25.0 g

ρ = 11.4 g/cm3

Putting these values into the formula:

V = 25.0 g / 11.4 g/cm3

V = 2.19 cm3

Therefore, the volume occupied by 25.0 g of lead is 2.19 cm3.

To know more about density refer,

https://brainly.com/question/29775886

#SPJ4

Rank the following in order of increasing force of attraction between its submicroscopic particles: (a) sugar, (b) water, (c) air.

Answers

The order of increasing force of attraction between submicroscopic particles is (c) air < (b) water < (a) sugar.

This is because sugar molecules have stronger intermolecular forces of attraction than water, and air molecules have weak intermolecular forces of attraction compared to both sugar molecules and water molecules.Force of attraction is a force that pulls the body near due to its attraction. There are numerous attractive forces prevailing in nature. Some of them are magnetic force, electric force, electrostatic force and gravitational force

To know more about force  please click:-
https://brainly.com/question/807785

#SPJ11

monochromatic light shining on a metal is observed to cause it to emit electrons. which change below might cause the emission of electrons to stop?

Answers

If the frequency of the monochromatic light shining on the metal is decreased below the threshold frequency, the emission of electrons would stop.

This is because the energy of the photons in the light would not be sufficient to overcome the metal's work function and eject electrons from its surface.

If monochromatic light is causing a metal to emit electrons, this is known as the photoelectric effect. To stop the emission of electrons, you can either decrease the intensity of the light or choose a light source with a longer wavelength (lower frequency) so that the photons have insufficient energy to overcome the metal's work function.

To learn more about photons click here

brainly.com/question/14758126

#SPJ11

The principal culture that transferred Greek astronomical knowledge to Renaissance Europe was:
A. Mayan
B. Byzantine
C. Islamic
D. Chinese
E. Indian

Answers

Answer:

Explanation:

The principle culture that transferred Greek astronomical knowledge to Renaissance Europe was Byzantine.

if the ball hits olaf and bounces off his chest horizontally at 7.40 m/s in the opposite direction, what is his speed vf after the collision?express your answer numerically in meters per second.

Answers

Olaf's speed after the collision is 0.296 m/s.

To solve this problem, we can use the law of conservation of momentum, which states that the total momentum before a collision is equal to the total momentum after the collision.
Let's assume that the ball has a mass of 0.2 kg and was moving at a speed of 7.40 m/s before the collision. Olaf has a mass of 5 kg and was initially at rest.
Before the collision, the total momentum is:
p = [tex]m_{1}[/tex] * [tex]v_{1}[/tex] + [tex]m_{2}[/tex] * [tex]v_{2}[/tex]
p = 0.2 kg * 7.40 m/s + 5 kg * 0 m/s
p = 1.48 kg m/s
After the collision, the ball bounces off Olaf's chest and moves in the opposite direction with a speed of 7.40 m/s. Let's call Olaf's final velocity [tex]v_{f}[/tex] .
he total momentum after the collision is:
p' =  [tex]m_{1}[/tex]  *[tex]v_{1}[/tex] ' +  [tex]m_{2}[/tex] * [tex]v_{2}[/tex] '
p' = 0.2 kg * (-7.40 m/s) + 5 kg * [tex]v_{f}[/tex]
p' = -1.48 kg m/s + 5 kg * [tex]v_{f}[/tex]
Since momentum is conserved, we can equate p and p':
p = p'
1.48 kg m/s = -1.48 kg m/s + 5 kg *[tex]v_{f}[/tex]
Solving for[tex]v_{f}[/tex] , we get:
[tex]v_{f}[/tex] = (1.48 kg m/s + 1.48 kg m/s) / 5 kg
[tex]v_{f}[/tex]  = 0.296 m/s
Therefore, Olaf's speed after the collision is 0.296 m/s.

Learn more about momentum here: https://brainly.com/question/30677308

#SPJ11

T/F - Music requires a higher bit depth than an audio recording of a person speaking.

Answers

Music requires a higher bit depth than an audio recording of a person speaking. - False

An audio recording of a person speaking may require a higher bit depth than music. The amount of bits utilised to describe an audio signal's amplitude is referred to as bit depth, and it has an impact on the dynamic range and resolution of an audio recording. Greater dynamic range and more accurate representation of audio levels are made possible by higher bit depth, which can be useful for recording and reproducing music with a variety of loudness levels or subtle subtleties.

However, the depth needed for an audio recording varies on the particular application, dynamic range, and audio quality that is required. Higher bit depths may be advantageous for music recordings because of the song's often large dynamic range and rich audio content. On the other hand, since speech often has a lower dynamic range than music, audio recordings of people speaking, such as those found in speeches or podcasts, would not need to have as high of a bit depth.

Read more about Music on:

https://brainly.com/question/26138624

#SPJ4

Long wavelength wave is a wave

Answers

Answer:

Explanation:

When the wavelength becomes larger the amplitude of the wave becomes shorter. This is the reason when a Tsunami occurred less damage to the ships in deep sea.

Where does wave reflection occur?at boundaries between two different mediawhile a wave is propagating through a single mediawhen two waves moving in opposite directions collidenone of the above

Answers

Wave reflection occurs at boundaries between two different media and when two waves moving in opposite directions collide. When a wave encounters a boundary between two media with different properties, such as density, temperature, or elasticity, part of the wave energy is reflected back into the original medium and part is transmitted into the new medium. This phenomenon is known as refraction. The amount of reflection and transmission depends on the angle of incidence and the properties of the media involved. When two waves moving in opposite directions meet, they interfere with each other and their amplitudes add or subtract.

In some cases, the waves cancel each other out completely, resulting in total destructive interference. In other cases, the waves reinforce each other, resulting in total constructive interference. The behavior of waves at boundaries and during collisions is important in many areas of science and engineering, including acoustics, optics, seismology, and electromagnetism.

Wave reflection primarily occurs at boundaries between two different media. When a wave encounters a change in medium, part of the energy is reflected back, while the rest is transmitted through the new medium. This phenomenon is due to differences in the properties of the two media, such as impedance or speed of wave propagation.

To know more about boundaries visit:-

https://brainly.com/question/30050559

#SPJ11

Other Questions
Question 33Before a drinking water sample is taken, the sampling tap should be clean, free of leaks and flushed for how long?a. 1 to 1 minutesb. 2 to 3 minutesc. 4 to 5 minutesd. 6 to 7 minutes What is the amplitude of the function? Comment on the following statement about perfect competition: A firm that has incurred a lot of fixed costs (such as buying or renting a large office, acquiring expensive machinery, etc.) is more likely to go out of business sooner when the market price of its product falls substantially, compared to a firm experiencing the same declining price but whose fixed costs are kept to a minimum. Do you agree? Why or why not? 1. A good example of an oligopoly would be....A. Dry cleaning stores in OklahomaB. Restaurants in Oklahoma.C. The production of tennis balls where 4 firms dominate -Wilson, Dunalp, Spalding and Pe QUESTION 22 The example of seventeenth-century absolutism that is traditionally considered the best is the rule of a. Charles II. b. Louis XVI. c. James III. d. Louis XIV. e. Ivan IV. Write an expression for the apparent nth term an of the sequence. (Assume that n begins with 1.) 4, 5/3, 6/5, 1, 8/9 Bridesmaids' bouquets can double as centerpieces at the reception. A. True B. False Which of the following authors are considered part of the Romanticism movement? Select all that apply.Charlotte BrontJane AustenAlfred TennysonHenrik IbsenHenry James Why is an understanding of electricity essential to the study of matter Devaughn is 12 years younger than Sydney. The sun of their ages is 78. What is Sydneys age? Name 4 ways to minimize enzymatic browning: The nurse provides care for a client experiencing diabetic ketoacidosis (DKA). Which findings will the nurse expect when assessing this client? (Select all that apply.)1. Poor skin turgor2. Decreased urine output3. Elevated blood glucose4. Tachycardia5. Orthostatic hypotension As firms increase the number of distribution centers in their system, the cost of outbound transportation (transportation from the distribution center to the customer) ______.Multiple Choiceincreasesremains the samedecreasesCannot be determined. explain what mercuito means by this exclamation Read this excerpt from a speech that could have been given in the 1800s.Our nation was founded on the idea of individual liberty. The government works hard to protect that liberty. There is only one small problem: half of the people living here are not allowed to vote. Therefore, they can never truly experience that liberty for themselves.How does irony affect the meaning of the speech?It suggests that women will soon be able to vote.It implies that the right to vote is in fact a big issue.It explains the ideas on which the country was founded.It shows that the speaker believes in the idea of liberty. 10. The main reason that Britain colonized the Gold Coast was to control its - Cellular concrete floor raceways shall have no conductor larger than _____ awg installed in the raceway.372.10 Question 1 (Mandatory) (1 point) The marginal cost curve a) intersects the ATC at its minimum point. b) intersects the AFC at its minimum point. c) always declines. d) is always S-shaped. the probability of any particular event occurring might be extremely low, but that same event, given enough opportunities to occur, might be Reread the last sentence on page 127 and explain what the term Gold Mountain means to Kai in this sentence. How did the meaning of Gold Mountain change for Kai from the introduction to the end of the story?