2. The moon was not a graceful orb but a misshapen circle. No stars were visible. It spooked
Heidi that the moon was so clear and the stars so missing. Even as she looked out, the sky
around the moon darkened threateningly. It did not seem cold enough for snow. They would
have one of those grim, depressing, icy rains.
The sky was _____
A) mysterious
B) sparkling
C) smoky
D) peaceful

True. According to the statement, the flat cable assembly shall consist of 2, 3 or 4 conductors. Conductors are the wires or cables that conduct electricity through a circuit or system.

In this case, the flat cable assembly is designed to have either two, three, or four conductors, which means that it can carry electrical signals or power through these wires. Flat cable assemblies are commonly used in electronic devices or systems where space is limited, and a flat, flexible cable is required. They are often used in applications such as computers, printers, televisions, and medical equipment. The number of conductors in a flat cable assembly can affect the performance and capabilities of the device or system that it is used in. Therefore, it is essential to follow the specifications and requirements stated in the statement to ensure that the flat cable assembly meets the necessary standards and functions correctly.According to the statement, the flat cable assembly shall consist of 2, 3 or 4 conductors. Conductors are the wires or cables that conduct electricity through a circuit or system.

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The closest answer choice is D) 87 in3, which is only 0.6 cubic inches more than the actual volume.

To find the volume of the brick, we need to multiply its length, width, and height.

V = l x w x h

Plugging in the given dimensions, we get:

V = 4.0 in x 2.7 in x 8.0 in
V = 86.4 cubic inches

Therefore, the volume of the brick is 86.4 cubic inches.

The closest answer choice is D) 87 in3, which is only 0.6 cubic inches more than the actual volume.

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To find the angular acceleration of the flywheel that slows from 600 rev/min to 400 rev/min while rotating through 40 revolutions, we first need to convert the given speeds into radians per second.

1. Convert rev/min to rad/sec:

Initial speed (ω1) = 600 rev/min * (2π rad/1 rev) * (1 min/60 sec) = 62.83 rad/sec

Final speed (ω2) = 400 rev/min * (2π rad/1 rev) * (1 min/60 sec) = 41.89 rad/sec

2. Use the angular displacement (θ) formula:

θ = 40 revolutions * (2π rad/1 rev) = 80π rad

3. Use the angular acceleration (α) formula:

ω2^2 = ω1^2 + 2αθ

Solve for α:

α = (ω2^2 - ω1^2) / (2θ) = (41.89^2 - 62.83^2) / (2 * 80π) = -2.72 rad/sec^2

(a) The angular acceleration of the flywheel is -2.72 rad/sec^2.

To find the time elapsed during the 40 revolutions, we can use the formula:

4. Time (t) = (ω2 - ω1) / α

t = (41.89 - 62.83) / -2.72 = -20.94 / -2.72 = 7.70 sec

(b) The time elapsed during the 40 revolutions is 7.70 seconds.

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

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

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The type of strain that is typically measured in the "Stresses in Beams" experiment is known as bending strain or flexural strain.

Bending strain refers to the deformation that occurs in a material when it is subjected to a bending load or moment, such as that experienced by a beam under a transverse load.

The type of strain that is typically measured in the "Stresses in Beams" experiment is known as bending strain or flexural strain.

When a beam is subjected to a transverse load, it experiences a combination of compressive and tensile stresses on the top and bottom surfaces, respectively, which can cause it to bend and deform.

Bending strain is typically expressed as a function of the curvature of the beam and the distance from the neutral axis, which is the line through the cross-section of the beam that experiences no stress or strain during bending.

The magnitude of the bending strain depends on several factors, including the material properties of the beam, its cross-sectional geometry, the magnitude and distribution of the applied load, and the length of the beam.

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A. the 22 W lightbulb draws 0.2 A of current when it is plugged directly into a 110 V outlet.

B. the internal resistance of the lightbulb is approximately 550 ohms.

A. The power (P) drawn by an electrical device can be calculated using the equation:

P = V x I

where P is power in watts (W), V is voltage in volts (V), and I is current in amperes (A).

In this case, a 22 W lightbulb is plugged directly into a 110 V outlet. To determine how much current it draws, we can rearrange the equation to solve for I:

I = P / V

Plugging in the values given, we get:

I = 22 W / 110 V = 0.2 A

Therefore, the 22 W lightbulb draws 0.2 A of current when it is plugged directly into a 110 V outlet.

B.

To determine the internal resistance (r) of the lightbulb, we can use Ohm's law:

V = IR + V_internal

where V is the voltage across the lightbulb, I is the current flowing through the lightbulb, r is the internal resistance of the lightbulb, and V_internal is any additional internal voltage drop within the lightbulb.

Since the lightbulb is plugged directly into a 110 V outlet, V is equal to 110 V, and we know from part A that I is 0.2 A. Therefore, we can rewrite the equation as:

110 V = 0.2 A x r + V_internal

To solve for r, we need to know the value of V_internal, which is not given in the problem. However, we can make an assumption that the internal voltage drop is negligible compared to the voltage across the lightbulb, which is often the case for simple resistive devices like lightbulbs.

Assuming V_internal is negligible, the equation simplifies to:

110 V = 0.2 A x r

Solving for r, we get:

r = 110 V / 0.2 A = 550 ohms

Therefore, the internal resistance of the lightbulb is approximately 550 ohms.

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The final adjusted ampacity of nonmetallic sheath cable should not exceed that of a 60°C rated conductor.

According to the National Electrical Code (NEC) 334-80, the ampacity of nonmetallic sheath cable should be based on the 60°C rating as listed in Table 310-15(A)(16). However, the 90°C ampacity listed in the same table can be used for ampacity adjustment purposes, provided that the final adjusted ampacity does not exceed that of a 60°C rated conductor.

This is because the insulation of nonmetallic sheath cable is rated for a maximum temperature of 60°C, and exceeding this temperature can cause the insulation to degrade or melt, leading to electrical hazards. Therefore, the final adjusted ampacity should not exceed the ampacity of a 60°C rated conductor to ensure safe operation.

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The efficiency of the engine is 20.37%. To calculate the efficiency of the engine, we can use the formula: Efficiency = 1 - (Tc/Th)

Where Tc is the temperature of the cold reservoir and Th is the temperature of the hot reservoir. We know that Th = 964 K and Tc = 622 K.

However, we also know that the engine operates at three-fifths of its maximum efficiency, so we need to take that into account. Let's call the maximum efficiency of the engine Emax. Then, the actual efficiency of the engine can be expressed as:

Efficiency = (3/5) * Emax

Substituting the values we have:

(3/5) * Emax = 1 - (622/964)

Solving for Emax:

Emax = (1 - (622/964)) / (3/5)

Emax = 0.3395

Therefore, the maximum efficiency of the engine is 0.3395.

To find the actual efficiency of the engine, we can substitute this value into the equation we derived earlier:

Efficiency = (3/5) * 0.3395

Efficiency = 0.2037 or 20.37%

So, the efficiency of the engine is 20.37%.

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phenomenon is known as electrostatic induction.

When a rubber rod is rubbed with fur, the rubber rod becomes negatively charged due to the transfer of electrons from the fur to the rubber. If the fur is then quickly brought near the bulb of an uncharged electroscope, the negative charge on the fur will induce a positive charge on the leaves of the electroscope by repelling electrons to the bottom of the leaves. Therefore, the sign of the charge on the leaves of the electroscope will be positive. This is because opposite charges attract each other and the positively charged leaves are attracted to the negatively charged fur. This phenomenon is known as electrostatic induction.

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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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a. True. Almost all sounds contain multiple frequencies because most sounds are a combination of different pitches and tones.

This means that various vibrations occur at different rates, producing a complex sound wave with multiple frequencies.These waves contain different frequencies, amplitudes, and wavelengths that combine to create the sound. Each sound has its own unique spectrum of frequencies, and the combination of these frequencies creates the sound we hear.

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True. Various heat-related disorders can be brought on by inadequate hydration combined with exposure to extreme heat and humidity.

One of three disorders brought on by excessive heat, with heat cramps being the least dangerous and heatstroke being the most serious, is heat exhaustion. High temperatures, particularly when there is also a high humidity level, and intensive physical activity are the main causes of heat illness.

According to T8 CCR Section 3395, "Heat Illness" refers to a dangerous medical illness caused by the body's incapacity to handle a specific amount of heat. Examples of this ailment include heat cramps, heat exhaustion, heat syncope, and heat stroke.

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Therefore, the ampacity of four current-carrying No. 8 THHN conductors installed in an ambient temperature of 100 degrees F is approximately 45.5 amps per conductor. The ampacity of four current-carrying No. 8 THHN conductors installed in an ambient temperature of 100 degrees F is determined by referring to the National Electrical Code (NEC) table 310.15(B)(16). For No. 8

THHN conductors, the base ampacity is 50 amps at 30°C (86°F). However, since the ambient temperature is 100°F, we need to apply a temperature correction factor.

For THHN insulation with a 90°C rating, the temperature correction factor at 100°F (38°C) is approximately 0.91. To calculate the adjusted ampacity, multiply the base ampacity by the temperature correction factor:

Adjusted Ampacity = Base Ampacity × Temperature Correction Factor
Adjusted Ampacity = 50 amps × 0.91
Adjusted Ampacity ≈ 45.5 amps

Therefore, the ampacity of four current-carrying No. 8 THHN conductors installed in an ambient temperature of 100 degrees F is approximately 45.5 amps per conductor.

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The amount of energy E dissipated by friction by the time the block stops is E = mgh + μmgd.

To find the amount of energy E dissipated by friction, we can use the work-energy principle. The principle states that the net work done on an object is equal to its change in kinetic energy.

At the start, the block has kinetic energy equal to (1/2)mv² and potential energy equal to mgh, where m is the mass of the block, v is the initial velocity, h is the initial height, and g is the acceleration due to gravity.

At the end, the block has come to a stop, so its kinetic energy is zero. Therefore, the net work done on the block is equal to the initial potential energy minus the energy dissipated by friction:

Net work = mgh - E

The net work done on the block is also equal to the work done by friction:

Net work = -Ff d

where Ff is the force of friction and d is the distance traveled before the block comes to a stop.

Since the block is sliding on a rough surface, the force of friction is given by Ff = μN, where N is the normal force and μ is the coefficient of kinetic friction. The normal force is equal to the weight of the block, which is mg.

Therefore, we can write:

mgh - E = -μmgd

Solving for E, we get:

E = mgh + μmgd

This is the amount of energy dissipated by friction by the time the block stops, expressed in terms of the variables m, v, and h, the coefficient of kinetic friction μ, the distance traveled d, and the acceleration due to gravity g.

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The correct answer is d. aluminum. Beta radiation consists of high-energy electrons that can be stopped by materials with moderate levels of atomic number and density, such as aluminum.

Lead is a better shield against gamma radiation, while glass and plastic can stop alpha radiation.

An electron current with a kinetic energy between 0.2 MeV and 3.2 MeV that is released at a rate faster than the speed of light is known as beta radiation. Less than 200 ion pairs typically form in each centimetre of air passage due to the fact that interactions between -particles and the atoms of pass-through materials occur much less frequently than interactions between 5×10⁵-particles due to their lower mass, which is approximately 5.5×10₄ amu (9.13010(24)g).

An extremely high energy positron or electron is generated during the beta radioactive disintegration of a nucleus. Beta radiation is another name for this emitted particle.

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The correct answer is c. alpha particles. Radon is a radioactive gas that can be found in homes and buildings. It is detected through the measurement of alpha particles, which are emitted by the decay of radon atoms.

This measurement is usually done using a device called a radon detector, which can provide an accurate reading of the radon levels in a home. It is important to regularly test for radon in order to ensure that the levels are safe for occupants.

Radon is detected in a home through the measurement of alpha particles.

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A simple test to determine the overall amount of particles of extremely small size in a water sample is the turbidity test.

The simple test to determine the overall amount of particles of extremely small size in a water sample is known as a turbidity test.

Turbidity is a measure of the cloudiness or haziness of a fluid caused by the presence of suspended particles, such as sediment, algae, or other microscopic matter.

The test involves shining a light through a water sample and measuring the amount of light that is scattered or absorbed by the particles in the water.

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The magnitude of the total magnetic field at the center of the loop, when the current is reversed, is twice the magnitude of the magnetic field due to the solenoid alone.

To help you understand the situation, let's break down the problem into steps:
1. Determine the magnetic field at the center of the loop when the total field is zero.
2. Calculate the magnitude of the total magnetic field when the current in the loop is reversed.
Step 1: When the total field is zero, it means that the magnetic field due to the loop ([tex]B_{loop}[/tex]) and the magnetic field due to the solenoid ([tex]B_{solenoid}[/tex]) are equal in magnitude but opposite in direction. In other words:
B_loop = [tex]-B_{solenoid}[/tex]
Step 2: Now, let's reverse the direction of the current in the loop. The magnetic field due to the loop will also reverse its direction:
[tex]B_{loop}_{reversed}[/tex]= [tex]-B_{loop}[/tex]
Now, we want to find the total magnetic field when the current is reversed:
[tex]B_{total}[/tex] = [tex]B_{loop}_{reversed} + B_{solenoid}[/tex]
Since [tex]B_{loop}[/tex] = [tex]-B_{solenoid}[/tex], we have:
[tex]B_{total}[/tex] = [tex]-(-B_{solenoid}) + B_{solenoid}[/tex]
[tex]B_{total}[/tex] = 2 * [tex]B_{solenoid}[/tex]
When the current is reversed, the total magnetic field at the center of the loop is twice as strong as the magnetic field caused by the solenoid alone.

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The standard measure for water turbidity nephelometric turbidity unit. Option A is the correct answer.

Water turbidity is a measure of the cloudiness or haziness of water caused by suspended particles that scatter and absorb light.

The standard measure for water turbidity is the Nephelometric Turbidity Unit (NTU), which measures the amount of light scattered by particles in the water sample.

The NTU is determined using a nephelometer, which measures the intensity of light scattered at a 90-degree angle to the incident light. The higher the turbidity of the water, the higher the NTU reading.

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The total mechanical energy of the apple is of a 0.100-kilogram apple hangs in a tree 1.50 meters above the ground. Ignoring frictional effects, the total mechanical energy of the apple is 1.47 J (joules)

To find the total mechanical energy, we need to consider both the potential energy and kinetic energy of the apple. Since the apple is not moving, its kinetic energy is zero. However, it does have gravitational potential energy due to its height above the ground. The formula for gravitational potential energy is:
PE = mgh
where m is the mass of the object (0.100 kg), g is the acceleration due to gravity [tex](9.81 m/s^{2})[/tex], and h is the height above the ground (1.50 m).
Plugging in these values, we get:
[tex]PE = (0.100 kg)(9.81 m/s^{2})(1.50 m)[/tex]

= 1.47 J
Therefore, the total mechanical energy of the apple is 1.47 J.
In summary, the total mechanical energy of the apple hanging in the tree is 1.47 J, which is solely due to its gravitational potential energy.

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The conductor allowable ampacity is a term used to refer to the maximum current that can safely flow through a conductor without causing damage or overheating. According to Section 240.4(D) of the National Electrical Code (NEC), the maximum overcurrent protection device for a No. 14 conductor is 15 amperes, for a No. 12 conductor it is 20 amperes, and for a No. 10 conductor it is 30 amperes.

However, it is important to note that this is a general rule and may not apply to all types of electrical equipment. Specifically, for motors or air-conditioners, a different set of rules apply, as stated in Section 240-3 of the NEC. It is crucial to follow these guidelines and regulations to ensure the safety and efficiency of the electrical system.

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False. Once an object is in motion in the absence of any external forces, it will remain in motion with the same speed and direction. This is known as the law of inertia, one of Newton's laws of motion.

An external force is required only to change the motion of an object. For example, if a ball is rolling on a frictionless surface, it will continue to roll indefinitely in a straight line with a constant speed if there are no other forces acting on it. However, if a force such as friction or gravity acts on the ball, it will change its motion by slowing down or changing its direction. In such cases, an external force is required to maintain the motion of the object in a specific way. Therefore, the statement is false as an object in motion can remain in motion without the application of a force.

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The frequency of light in a vacuum that has a wavelength of 71200 m is 4.213 kHz.

The frequency of light is obtained from the ratio of the speed of light and wavelength of light. The frequency,ν = c / λ, where c is the speed of the light in vacuum and is equal to 3×10⁸ m/s and λ is the wavelength of light.

From the given,

the wavelength of light = 71200 m

speed of light = 3×10⁸ m/s

Frequency =?

ν = c / λ

=  3×10⁸ / 71200

= 4.213 kHz.

The frequency of light in a vacuum is 4.213 kHz.

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When a runner completes one lap around a 400m track and finishes exactly where she started, her linear distance with respect to the starting position is zero.

This is because the linear distance is the shortest distance between two points, and in this case, the runner started and ended at the same point.

However, it is important to note that the distance covered by the runner is not zero - she has covered a distance of 400 meters by completing one lap around the track.

It is common for people to confuse linear distance with total distance covered, but they are not the same thing. Linear distance refers to the shortest distance between two points,

while total distance covered refers to the overall distance traveled by an object, regardless of the path taken. In this case, the runner covered a total distance of 400 meters by running one lap around the track,

but her linear distance with respect to the starting position is zero because she ended up at the same point where she started.

In conclusion, the runner's linear distance with respect to the starting position is zero, even though she covered a total distance of 400 meters by completing one lap around the 400m track.

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The formula for the period of a simple pendulum is T  2π√L g, where T is the period, L is the length of the pendulum, and g is the acceleration due to gravity. Therefore, the magnitude of the acceleration due to gravity on this distant planet is approximately 4.52 ms².

We are given that the length of the pendulum is 1.1 m and that it makes 100 complete oscillations in 247 s. The period of the pendulum can be calculated by dividing the time by the number of oscillations: T 247 s  100  2.47 s. Using the formula for the period of a simple pendulum, we can solve for the acceleration due to gravity, g  4π²L  T²  4π²  1.1 m 2.47 s²  4.52 m s².Therefore, the magnitude of the acceleration due to gravity on this distant planet is approximately 4.52 m s².Understand the definition of a pendulum in physics. Learn how Newtonian mechanics describes the motion of pendulums, their period and frequency, through equations

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The classic example of X-ray induced malignancy is leukemia.

While ionizing radiation exposure can increase the risk of various types of cancer, leukemia is considered the classic example of X-ray induced malignancy. This is because early studies of radiation workers, such as radiologists and nuclear workers, showed a higher incidence of leukemia compared to the general population.

Leukemia is a cancer of the blood-forming tissues, such as the bone marrow, and can be caused by mutations in the DNA of blood cells. Ionizing radiation can cause these mutations by breaking chemical bonds in DNA molecules, which can lead to errors in DNA replication and repair.

The risk of developing leukemia from X-ray exposure depends on various factors, such as the dose and duration of exposure, the age at exposure, and individual susceptibility. However, the risk of developing leukemia from X-ray exposure is generally low, and the benefits of medical imaging usually outweigh the potential risks. Radiation safety measures, such as shielding and dose optimization, are used to minimize the risk of exposure in medical imaging and other radiation-related activities.

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The angle that the print subtends is 7.15°, which is less than the necessary angle of 10 minutes (or 0.1667°). As a result, it would be uncomfortable to read for a lengthy period of time since the user would have to strain to see the print.

Hard exudates, retinal edoema, microaneurysms, flame or splinter haemorrhages (found in the superficial nerve fibre layer), or dot and blot haemorrhages (found deeper in the retina), are some fundus findings.

We can use the formula:

angle subtended = 2 * arctan (size of print / 2 * distance)

Substituting the given values, we get:

angle subtended = 2 * arctan (1.5 / (2*12))

= 2 * arctan (0.0625)

= 2 * 3.576°

= 7.15°

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Venus must go backwards around the inferior conjunction. Therefore, option E is correct.

Copernicus' explanation, Retrograde motion is when a planet appears to be moving backward as compared to the background stars. When Venus passes between the Earth and the Sun at the inferior conjunction, Venus begins its retrograde motion.

Venus appears to slow down, stop, and then move backward for a brief time before resuming its usual speed at this time when it is closest to the Earth. This phenomena explains the heliocentric model of solar system.

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Complete question - According to Copernicus, retrograde motion for Venus must occur around:

A. Quadrature, when the planet is 90 degrees away from the sun

B. Opposition, when the planet lies opposite the sun in the sky

C. Greatest elongation, when the planet is farthest from the sun

D. Superior conjunction, when the planet is on the far side of the sun

E. Inferior conjunction, when it passes between us and the sun

A straight bar magnet is initially 4 cm long. If you cut the magnet in half, the right half will no longer contain any poles.

Option A is correct.

The length of the bar magnet 4cm, assuming we cut into a portion of the right half will have same shafts. By splitting the bar magnet in half, two smaller but still complete magnets with north and south poles are produced. Each piece of a magnet remains a complete magnet with two poles regardless of how small they are cut, even down to the microscopic level.

Therefore, magnets always have two poles. There is no such thing as a unipole.

A magnet made of ferromagnets is called a bar magnet. The magnet's magnetism is derived from ferromagnetic materials. As the name recommends, a Bar Magnet is a rectangular piece of the Magnet which, as different Magnets when suspended openly, adjusts itself along the Attractive field of the earth.

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