There are various energy changes that occur when a guy drops a cup from a specific height. The cup's elevation above the ground gives it potential energy.
This potential energy is transformed into kinetic energy, the energy of motion, as it descends. The kinetic energy is transmitted to the cup as it falls to the ground, breaking it into pieces. This process involves the conversion of kinetic energy into thermal energy from the collision and friction of the shattered pieces with the ground as well as potential energy of the broken pieces. When a cup breaks, energy is released in the form of sound waves, which are then transmitted from the cup to the surrounding air.
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A student chops a piece of ice out of a frozen lake and holds its smooth, parallel sides tilted toward the Sun. Show the path of a ray of sunlight through the ice. (Hint: Light travels more slowly in ice than in air.)
When light passes through a medium of a different density, it changes direction due to refraction. In the case of the ice block, the light will enter the block at an angle and slow down as it passes through the denser ice.
This change in speed causes the light to bend or refract towards the normal. The amount of refraction depends on the angle of incidence and the difference in the refractive indices of the two media. As the light exits the block. The exact path of the ray of sunlight will depend on the angle at which it enters and exits the ice block, as well as the thickness and shape of the block.
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Conductor Insulation Property(310.104): THHN can be described as thermoplastic insulation with a nylon cover; having a maximum operating temperature of 90 degrees C(True/False)
True. THHN stands for Thermoplastic High Heat-resistant Nylon-coated. It is a type of electrical wire used in homes and buildings to carry power from the electrical panel to various devices, outlets, and appliances.
THHN wire is made of copper wire and is coated with a thermoplastic insulation material that provides protection against abrasion, chemicals, and moisture. The nylon covering helps to improve its durability and resistance to heat, making it suitable for use in environments with high temperatures up to 90 degrees Celsius. THHN wire is commonly used in commercial and industrial applications where high temperatures and moisture exposure are common.
THHN is a type of electrical wire commonly used for building wiring in North America. It stands for "Thermoplastic High Heat-resistant Nylon-coated." The wire has a thermoplastic insulation and a nylon jacket that provides protection against abrasion and chemicals. THHN wire can be used in dry or damp locations and has a maximum operating temperature of 90 degrees Celsius (194 degrees Fahrenheit). It is often used in conduit, cable trays, and other enclosed areas.
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The suction line is known as the ___ line in an air-to-air heat pump split system.a. vaporb. liquidc. transientd. gas
The suction line is known as the vapour line in an air-to-air heat pump split system.
The vapour line allows the connection between the ship tank's vapour space and the shore tank's vapour space. The vapour spaces of ship and shore tanks will always be in equilibrium. We use the vapour line with the purpose that there should not be any release of cargo vapours into the atmosphere. The vent pipes from cargo oil tanks. They are led to pressure/vacuum valves which are usually mounted on standpipes some distance above the deck.
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Due to the wave nature of light, light shined on a single slit will produce a diffraction pattern. Green light (570 nm) is shined on a slit with width 0.465 mm. (a) Find the width of the central maximum located 1.80 m from the slit. mm (b) What is the width of the first order fringe
(a) The width of the central maximum is 3.75 mm. (b) The width of the first order fringe is 1.87 mm.
(a) The width of the central maximum can be found using the formula:
w = (λL) / D
where w is the width of the central maximum, λ is the wavelength of light, L is the distance from the slit to the screen, and D is the width of the slit.
Substituting the given values, we get:
w = (570 × 10⁻⁹ m × 1.80 m) / 0.465 × 10⁻³ m = 3.75 mm
Therefore, the width of the central maximum is 3.75 mm.
(b) The width of the first order fringe can be found using the formula:
w = (λL) / d
where w is the width of the first order fringe, λ is the wavelength of light, L is the distance from the slit to the screen, and d is the distance from the central maximum to the first order fringe.
To find d, we can use the small angle approximation:
sinθ ≈ θ ≈ d/L
where θ is the angle between the central maximum and the first order fringe.
Substituting the given values, we get:
θ = d/L = 1.87 × 10⁻³ m / 1.80 m ≈ 0.00104 radians
Using the same formula as part (a), we can find the width of the first order fringe:
w = (570 × 10⁻⁹ m × 1.80 m) / 0.00104 = 1.87 mm
Therefore, the width of the first order fringe is 1.87 mm.
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A special valve that is used almost exclusively to facilitate making connections to pipeline is the?
a. Gate valve
b. Corporation stop
c. Altitude valve
d. Auxiliary valve
A special valve that is used almost exclusively to facilitate making connections to pipeline is the corporation stop. The answer to the question is option b. Corporation stop.
A corporation stop is a special type of valve that is primarily used to facilitate making connections to pipelines. It is a specific type of service connection that is commonly found in water distribution systems. Corporation stops are designed to allow for easy installation of service lines to supply water to a home or business.
Corporation stops are typically made of brass and consist of a valve body, valve stem, and valve seat. The valve stem is used to open and close the valve, which allows water to flow through the pipeline.
The valve seat is the part of the valve that provides a seal to prevent leaks.
Corporation stops are designed to be installed on the main water line at the point where a service connection is needed.
They are usually installed with a tapping machine that drills a hole in the main line, allowing the corporation stop to be inserted and connected to the service line.
The corporation stop is a crucial component in water distribution systems. It allows for easy installation of service lines and ensures that water can be delivered to homes and businesses efficiently and reliably.
Option b is right choice.
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the goose has a mass of 16.0 lb (pounds) and is flying at 11.1 miles/h (miles per hour). what is the kinetic energy of the goose in joules? enter your answer numerically in joules.
The kinetic energy of the goose is approximately 89.83 joul. Therefore, the kinetic energy of the goose is approximately 90.01 joules.
To calculate the kinetic energy of the goose, we first need to convert its mass from pounds to kilograms and its velocity from miles per hour to meters per second, since kinetic energy is measured in joules, which is the standard unit of energy in the metric system.
1 pound = 0.45359237 kilograms
16.0 lb = 7.25741792 kg
1 mile/h = 0.44704 meters/s
11.1 miles/h = 4.963424 meters/s
Now we can use the formula for kinetic energy:
KE = 1/2 * m * v^2
where KE is the kinetic energy in joules, m is the mass in kilograms, and v is the velocity in meters per second.
Plugging in the values we just calculated, we get:
KE = 1/2 * 7.25741792 kg * (4.963424 m/s)^2
KE = 1/2 * 7.25741792 kg * 24.635313536 m^2/s^2
KE = 90.01124945 joules
Therefore, the kinetic energy of the goose is approximately 90.01 joules.
To calculate the kinetic energy of the goose, we need to convert its mass and velocity into SI units (kilograms and meters per second) and then use the formula for kinetic energy: KE = 0.5 * m * v^2.
First, convert the mass from pounds to kilograms: 1 lb = 0.453592 kg. So, 16.0 lb * 0.453592 kg/lb = 7.257472 kg.
Next, convert the velocity from miles per hour to meters per second: 1 mile = 1609.34 meters, 1 hour = 3600 seconds. So, 11.1 mi/h * (1609.34 m/mi) / (3600 s/h) ≈ 4.9584 m/s.
Now, plug the values into the kinetic energy formula: KE = 0.5 * 7.257472 kg * (4.9584 m/s)^2 ≈ 89.83 joules.
So, the kinetic energy of the goose is approximately 89.83 joules.
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In the Ampere-Maxwell relation, integral w circle B Ds , the circle in integral refers to:
Maxwell’s first equation is based on the Gauss law of electrostatic, which states that “when a closed surface integral of electric flux density is always equal to charge enclosed over that surface. The product of the electric flux density vector and surface integral is equal to the charge enclosed.
The circle in the Ampere-Maxwell relation, integral w circle B Ds, refers to the closed path or loop along which the integral is taken. It represents a complete loop around a current-carrying wire or a closed circuit. the Ampere-Maxwell relation, the integral with the circle represents a line integral taken over a closed loop or path. The terms "Ampere," "integral," and "circle" in this context are related. The circle in the integral refers to the closed path integral of the magnetic field around a loop. The term Amperes associated with the enclosed current I enc in the loop, and the integral calculates the contribution of both the current and the changing electric field to the magnetic field surrounding the loop.
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(240) A continuous load of 27 ampere requires the circuit overcurrent protection device to be sized at _____ ampere.
A continuous load of 27 ampere requires the circuit overcurrent protection device to be sized at 35 ampere.
To decide the circuit overcurrent security gadget size for a ceaseless heap of 27 amperes, we really want to think about the NEC rules and explicit prerequisites for the circuit.
The NEC expects that the circuit overcurrent security gadget (OCPD) be measured at 125% of the nonstop burden, and that implies that the OCPD should be appraised for no less than 33.75 amperes (27 amperes x 1.25).
Also, the NEC expects that we gather together the OCPD size to the following standard rating that is accessible on the lookout. For instance, a 35-ampere OCPD would be the following standard size accessible to safeguard the circuit with a ceaseless heap of 27 amperes.
Thusly, the circuit overcurrent security gadget should be measured at least 33.75 amperes and gathered together to the following standard size, which is 35 amperes for this situation.
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How many grams of NaCl (molarmass=58g/mol) are needed to prepare 100.mL of a 0.25M NaCl solution?A) 0.23gB) 0.43gC) 0.67gD) 1.5g
option D) 1.5g.
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The magnitude of vector A is 5.5 m, lies in the second quadrant, and makes a 34° angle with the +y-axis. The components of vector A are closest to:
The magnitude of vector A is 5.5 m, lies in the second quadrant, and makes a 34° angle with the +y-axis. The components of vector A are closest to (4.56 m, 3.12 m).
To find the components of vector A, we need to use trigonometry. We know the magnitude of vector A is 5.5 m and it makes a 34° angle with the +y-axis, which is in the second quadrant.
First, we can use the angle and the magnitude to find the length of the component that lies along the y-axis. Using trigonometry, we can see that sin(34°) = y/5.5, where y is the length of the component along the y-axis. Solving for y, we get y ≈ 3.12 m.
Next, we can use the angle and the length of the y-component to find the length of the component that lies along the x-axis. Using trigonometry again, we can see that cos(34°) = x/5.5, where x is the length of the component along the x-axis. Solving for x, we get x ≈ 4.56 m.
Therefore, the components of vector A are closest to (4.56 m, 3.12 m).
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A charged capacitor is connected in series to a switch and a light bulb. When the switch is closed the light bulb
When a charged capacitor is connected in series to a switch and a light bulb, it forms a circuit.
The capacitor is like a temporary battery that stores electrical charge. When the switch is closed, the circuit is completed, and the electrical charge stored in the capacitor is released, causing a current to flow through the light bulb. As a result, the light bulb will light up. However, once the capacitor discharges completely, the light bulb will go out. So, in summary, the charged capacitor in this circuit acts as a temporary power source, and the switch controls the flow of electricity to the light bulb.
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what is the difference between a battery and a fuel cell? drag the appropriate attributes to their respective bins. resethelp to move to drop area press tab key.
a battery stores energy which it then uses, whereas a fuel cell generates energy by converting available fuel.
what does battery mean in law?An act of battery is when someone uses unlawful physical force, either directly or indirectly, to take something from somebody or damage their property, often inflicting harm or making offensive contact.
What does "battery crime" mean exactly?Hence, the object of the anxiety must be a thing that a sane person would perceive as dangerous to them. Physically injuring someone without their consent is referred to as battery. They are the term as they have historically been used, although in the present context, they might mean a variety of various ways of harming.
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An object has 7N upwards, and on the same side 6N upwards. It also has 10N down and in the same direction 6N down. What is the Net Force and Describe the motion of the object.
Answer:
29 Newtons, Motion is going down
Explanation:
7+6+10+6 = 29 Newtons
Magnesium metal is used in a photoelectric effect experiment. The work function for Mg (i.e. the energy required to remove an electron) is 3.68 eV. What is the longest wavelength of light, in nm, that can remove an electron from the
The longest wavelength of light that can remove an electron from magnesium will be obtained.
To determine the longest wavelength of light that can remove an electron from magnesium (Mg) metal, we can use the equation relating the energy of a photon (E) to its wavelength (λ):
E = hc/λ
Where:
E is the energy of the photon
h is the Planck's constant (6.62607015 x 10^(-34) J·s)
c is the speed of light in a vacuum (2.998 x 10^8 m/s)
λ is the wavelength of light
In this case, the energy required to remove an electron from magnesium (Mg) metal, also known as the work function (Φ), is given as 3.68 eV. We need to convert this energy from electron volts (eV) to joules (J) before we can proceed with the calculation.
1 eV = 1.602176634 x 10^(-19) J
Therefore, the work function Φ for magnesium can be converted to joules as:
Φ = 3.68 eV * (1.602176634 x 10^(-19) J/eV)
Now, we can rearrange the equation to solve for the wavelength (λ):
λ = hc/E
Substituting the values:
λ = (6.62607015 x 10^(-34) J·s * 2.998 x 10^8 m/s) / Φ
Calculating Φ:
Φ = 3.68 eV * (1.602176634 x 10^(-19) J/eV) = 5.8988621312 x 10^(-19) J
Now, we can calculate the wavelength:
λ = (6.62607015 x 10^(-34) J·s * 2.998 x 10^8 m/s) / (5.8988621312 x 10^(-19) J)
After performing the calculation, the longest wavelength of light that can remove an electron from magnesium will be obtained.
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What is the efficiency of an electric light bulb that produces 5 joules of light for ever 100 joules of electrical energy used.
The efficiency of an electric light bulb that produces 5 joules of light for every 100 joules of electrical energy used is 5%.
The efficiency of an electric light bulb can be calculated by dividing the output energy (in this case, light) by the input energy (electrical energy) and multiplying by 100 to express it as a percentage. In this case, the light bulb produces 5 joules of light for every 100 joules of electrical energy used. Therefore, the efficiency is (5 Joules / 100 Joules) * 100 = 5%. This means that only 5% of the electrical energy is converted into light energy, while the rest is lost as heat or other forms of energy. It is important to consider the efficiency of light bulbs when choosing which ones to use, as more efficient bulbs can help reduce electricity usage and save money on energy bills.
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15. A wheel, originally rotating at 126 rad/s undergoes a constant angular deceleration of 5.00 rad/s2. What is its angular speed after it has turned through an angle of 628 radians?
A) 15 rad/s
B) 19 rad/s
C) 98 rad/s
D) 121 rad/s
E) 150 rad/s
The solve this problem, we need to use the formula ω² = ω₀² + 2αθ where ω is the final angular speed, ω₀ is the original angular speed, α is the angular deceleration use a negative value since it's deceleration, and θ is the angle through which the wheel has turned.
To solve this problem, we can use the following angular motion equationω² = ω₀² + 2αθ where ω is the final angular speed, ω₀ is the original angular speed, α is the angular deceleration use a negative value since it's deceleration, and θ is the angle through which the wheel has turned.ω₀ = 126 rad/s originally α = -5.00 rad/s² (angular deceleration)θ = 628 rad angle Now, plug in the values into the equation ω² = 126 rad/s² + 2-5.00 rad/s² 628 radω² = 15876 - 6280ω² = 9596To find ω, take the square root of 9596:ω = √9596 ≈ 98 rad/s So, the final angular speed after turning through an angle of 628 radians is approximately 98 rad/s. The correct answer is C 98 rad/s.
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define the term 'perception' and its primary difference between sensation
Perception refers to the process of interpreting and organizing sensory information received from the environment. It involves the integration of sensations with prior knowledge, expectations, and other contextual factors to form a meaningful experience.
The primary difference between perception and sensation is that sensation refers to the physical experience of detecting stimuli through the sensory organs, while perception involves the cognitive interpretation and processing of that sensory information. Sensation is the first step in the process of perception, as it provides the raw data that is then interpreted by the brain. In other words, sensation is the primary sensory experience, while perception is the cognitive understanding and interpretation of that experience.
Perception refers to the process of interpreting and organizing sensory information, enabling us to recognize meaningful objects and events. Sensation, on the other hand, is the process of receiving raw sensory data from the environment through our sense organs. The primary difference between perception and sensation is that sensation involves the collection of sensory information, while perception is the interpretation and understanding of that information.
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13) What do we mean by a protogalactic cloud? A) a cloud of hydrogen and helium that contracts to become a galaxy B) a term once used historically to refer to any galaxy C) the cloud-like halo that surrounds the disks of spiral galaxies D) a cloud of gas that was once a galaxy
A protogalactic cloud refers to option A) a cloud of hydrogen and helium that contracts to become a galaxy.
It is an early stage in the formation of a galaxy where gas and dust come together under the influence of gravity, eventually leading to the development of a fully formed galaxy.A protogalactic cloud is a cloud of gas and dust that is in the process of collapsing to form a new galaxy. These clouds are typically composed of hydrogen, helium, and other elements, and contain the seeds of stars and planets that will form within the newly forming galaxy. Protogalactic clouds are believed to be the birthplace of galaxies and are thought to be the sites of the earliest star formation in the universe.
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Conductors in Parallel(310-10(H)(5): All parallel equipment grounding conductors are required to be a minimum No. 1/0.(True/False)
All parallel equipment grounding conductors must be a minimum No. 1/0 according to the code 310-10(H)(5). The answer is: False. The code 310-10(H)(5) does not specify a minimum No. 1/0 size for parallel equipment grounding conductors. It is important to follow the specific code requirements for conductor sizing in parallel installations.
According to NEC 310-10(H)(5), parallel equipment grounding conductors are not required to be larger than No. 1/0 unless they are part of a feeder or service entrance, in which case they must be at least the same size as the largest ungrounded conductor. However, it is recommended to use the same size equipment grounding conductors in parallel to simplify installation and minimize impedance differences between the conductors.
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Interval estimates are preferred over point estimates since a confidence level can be specified. (True or False)
True. Interval estimates are preferred over point estimates since a confidence level can be specified.
An interval estimate provides a range of values within which the true population parameter is likely to fall, while a point estimate gives a single value as an estimate. The confidence level associated with an interval estimate reflects the degree of certainty that the interval contains the true population parameter. This additional information makes interval estimates more useful and informative than point estimates.
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if almost all the galaxies that we see are moving away from the milky way, what does that tell us about our location in the universe?
If almost all the galaxies that we see are moving away from the Milky Way, it tells us that we are not at the center of the universe.
Instead, we are likely located on the outer edge of the universe, where galaxies are moving away from us due to the expansion of space. This discovery was made through observations of redshift, which occurs when light waves from distant galaxies stretch out and move towards the red end of the spectrum as they travel through expanding space. This phenomenon is known as the Doppler effect and it allows us to measure the speed and direction of galaxies relative to our own.
Therefore, the fact that most galaxies are moving away from us indicates that we are not at the center of the universe, but rather one of many locations in an ever-expanding universe.
The observation that almost all galaxies are moving away from the Milky Way indicates that the universe is expanding. This means that our location in the universe is not particularly unique, as every other galaxy is experiencing the same expansion and moving away from each other as well.
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Question 86
The longer the wave length, the lower the frequency and energy.
a. True
b. False
According to Planck’s equation, E hv, the lowest frequency is associated with the lowest energy. In Figure 6.14 the shortest vertical line represents the smallest energy change. Thus, then 4 to n 3 transition produces the longest wavelength lowest frequency line.
The wavelength and frequency of a wave are inversely proportional, meaning that as the wavelength increases, the frequency decreases. This also means that the energy of the wave decreases since energy is directly proportional to frequency. According to Planck’s equation, E hv, the lowest frequency is associated with the lowest energy. In Figure 6.14 the shortest vertical line represents the smallest energy change. Thus, then 4 to n 3 transition produces the longest wavelength lowest frequency line.
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when light with a wavelength of 216 nm strikes the surface of tin metal, electrons are ejected with a maximum kinetic energy of 2.1 x 10^-19 j. what is the binding energy of these electrons to the metal?
When light with a wavelength of 216 nm strikes the surface of tin metal, it transfers energy to the metal's electrons. If the energy transfer is sufficient, electrons can be ejected from the surface of the metal. To answer your question, we'll need to use the concept of the photoelectric effect and the following terms: wavelength, 216 nm, electrons, and binding energy.
The photoelectric effect occurs when light (or photons) with a certain wavelength strikes the surface of a material like tin metal, causing electrons to be ejected.The maximum kinetic energy of the ejected electrons is determined by the energy of the incident light and the binding energy of the electrons to the metal. The binding energy of an electron is the energy required to remove it from the metal's surface.
To calculate the binding energy of the electrons ejected from the tin metal, we can use the equation:
Binding energy = energy of incident light - maximum kinetic energy of ejected electrons
The energy of incident light can be calculated using the equation:
Energy = (hc) / wavelength
here h is Planck's constant, c is the speed of light, and wavelength is the wavelength of the incident light.
Substituting the values given in the question, we get:
Energy = (6.626 x 10^-34 J.s x 3 x 10^8 m/s) / (216 x 10^-9 m) = 9.18 x 10^-19 J
Now, we can use the first equation to calculate the binding energy:
Binding energy = 9.18 x 10^-19 J - 2.1 x 10^-19 J = 7.08 x 10^-19 J
Therefore, the binding energy of the electrons to the tin metal is 7.08 x 10^-19 J.
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a long straight wire of radius r carries current i uniformly distributed across its cross-sectional area. find the magnetic energy stored per unit length in the interior of this wire.
The magnetic energy stored per unit length in the interior of the wire can be found using the formula U = (μ₀/2) ∫B² dV
where U is the magnetic energy per unit length, μ₀ is the vacuum permeability, B is the magnetic field, and dV is the differential volume element.
For a long straight wire carrying a current i uniformly distributed across its cross-sectional area, the magnetic field inside the wire is given by:
B = (μ₀/2πr) i
where r is the radius of the wire.
The differential volume element can be expressed as dV = πr² dx, where dx is the length of the element.
Substituting these values in the formula, we get:
U = (μ₀/2) ∫[μ₀²i²/(4π²r²)] πr² dx
Simplifying, we get:
U = (μ₀i²/8π) ∫dx
Integrating from 0 to L (the length of the wire), we get:
U = (μ₀i²L/8π)
The magnetic energy stored per unit length in the interior of the wire is given by:
U/L = (μ₀i²/8π)
To find the magnetic energy stored per unit length in the interior of a long straight wire with radius r carrying a current i uniformly distributed across its cross-sectional area, you can use the following formula:
Magnetic energy per unit length (U) = (μ₀ * i²) / (16π * r)
Where μ₀ is the permeability of free space (4π x 10⁻⁷ Tm/A). This formula represents the magnetic energy stored in the wire due to the magnetic field created by the current.
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(362-2) Electrical nonmetallic tubing is composed of a material that is resistant to moisture, chemical atmospheres, and is ______.
Electrical nonmetallic tubing is composed of a material that is resistant to moisture, chemical atmospheres, and is flame r etardant.
This statement is taken from the National Electrical Code (NEC) 362.2, which outlines the requirements for electrical nonmetallic tubing (ENT). ENT is a type of conduit that is commonly used to protect and route electrical wiring in residential and commercial buildings.
The material used in ENT is typically a type of thermoplastic polymer that is resistant to moisture, chemicals, and other environmental hazards. In addition, the material used in ENT must also be flame r etardant to prevent the spread of fire in the event of an electrical fault or other hazard. It is important to use ENT that meets the NEC requirements to ensure that it provides adequate protection and safety for electrical wiring in buildings.
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soccer ball is kicked with an initial horizontal velocity of 17 m/s and an initial vertical velocity of 19 m/s. 1)What is the initial speed of the ball?
The initial speed of the ball is approximately 25.5 m/s.
To find the initial speed of the ball, we can use the Pythagorean theorem which states that in a right triangle, the square of the hypotenuse (the longest side) is equal to the sum of the squares of the other two sides.
In this case, the horizontal and vertical velocities of the ball form the two sides of a right triangle, and the initial speed of the ball is the hypotenuse.
So, using the Pythagorean theorem, we have:
initial speed = √(horizontal velocity² + vertical velocity²)
initial speed = √(17² + 19²)
initial speed = √(289 + 361)
initial speed = √650
initial speed ≈ 25.5 m/s
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Question 66
Which one of the following does not seem to be associated with exposure to microwaves?
a. Cataracts
b. Chromosomal abnormalities
c. Birth defects
d. Men fathering only male offspring
d. Men fathering only male offspring does not seem to be associated with exposure to microwaves. However, exposure to microwaves has been linked to a variety of health concerns, including cataracts, chromosomal abnormalities, and birth defects.
Cataracts are a common eye condition that can lead to blurry vision and eventually blindness. Studies have shown that long-term exposure to microwaves can increase the risk of developing cataracts. Chromosomal abnormalities refer to changes in the structure or number of chromosomes in cells, which can lead to genetic disorders and developmental disabilities. Exposure to microwaves has been shown to cause such abnormalities in some studies. Birth defects are abnormalities that occur during fetal development and can affect a baby's health or development. Some studies have suggested that exposure to microwaves during pregnancy may increase the risk of certain birth defects. It is important to note, however, that the research on the health effects of exposure to microwaves is still ongoing, and more studies are needed to fully understand the risks involved.
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Rubbing alcohol freezes at -129°F. What is the freezing point on the Celsius scale?
if you stand on a bathroom scale, the spring inside the scale compresses 0.542 mm, and it tells you your weight is 728 n. now if you jump on the scale from a height of 1.06 m, what does the scale read at its peak?
The scale reads 764 N at its peak, which is slightly more than your weight of 728 N when you're just standing on it.
This is because the additional compression of the spring due to your jump adds some extra force. When you jump on the bathroom scale from a height of 1.06 m, the scale will read a higher value than 728 N at its peak. This is because the added kinetic energy from jumping will increase the force exerted on the scale, causing the spring to compress more than 0.542 mm. However, without knowing the spring constant, we cannot precisely determine the scale's reading at its peak.
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Question 94
In assessing radiation hazard, the sum total of all exposures should be considered.
a. True
b. False
The given statement "In assessing radiation hazard, the sum total of all exposures should be considered" is true.
When evaluating the potential risk of radiation exposure, it is important to take into account all sources of exposure, including background radiation, medical procedures, occupational exposures, and environmental contamination.
This cumulative exposure can contribute to the overall dose received by an individual and can impact their health over time. So it is important to monitor and control all sources of radiation exposure to minimize potential risks and ensure the safety of individuals working or living in radiation-prone environments.
Thus, the correct choice is a. true.
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