the drawing shows a 15.0-kg ball being whirled in a circular path on the end of a string. the motionoccurs on a frictionless, horizontal table. the angular speed of the ball is 12 rad/s. the string has amass of 0.0230 kg. how much time does it take for a wave on the string to travel from the center ofthe circle to the ball

The required potential energy stored in the spring-block system, when the second block is placed on the surface and the spring is compressed by twice the distance, is four times the original potential energy Em.

Let's denote the original potential energy when the spring is compressed by distance d as Em. When the spring is compressed, it exerts a restoring force given by Hooke's Law:

F = -kx,

Where F is the restoring force, k is the spring constant, and x is the displacement from the equilibrium position.

When the spring is compressed by distance d, the potential energy stored in the system is given by:

[tex]E_m = \dfrac{1}{2} kd^2[/tex]

Now, let's consider the situation when the second block of mass 2m is placed on the surface, and the spring is compressed by a distance 2d. Since the spring is compressed by twice the distance, the displacement is 2d. In this case, the potential energy stored in the system can be calculated as:

[tex]E_2 = \dfrac{1}{2} k((2d)^2) \\E_2= 4\times \dfrac{1}{2}k(d^2) \\E_2= 4E_m[/tex]

Therefore, the potential energy stored is four times the original potential energy Em.

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If the magnetic field and the velocity are perpendicular, the force is maximum, and if they are parallel, the force is zero. The direction of the magnetic force can be determined using Fleming’s left-hand rule. The thumb represents the direction of the motion of the charge, the first finger represents the direction of the magnetic field, and the middle finger represents the direction of the magnetic force.

A square loop of wire carrying current in the counterclockwise direction will experience a force.

The force will be in the direction given by Fleming’s left-hand rule. The magnetic field is uniform and horizontal, and it is pointing towards the right. The question is asking for the direction of the net force on the loop. The direction of the net force on the loop can be determined using the right-hand palm rule.

The right-hand palm rule states that the thumb represents the direction of the current, and the fingers represent the direction of the magnetic field. If the fingers of the right hand are curled in the direction of the magnetic field and the thumb in the direction of the current, then the direction of the force is given by the palm.

In this case, the palm points upwards, which means that the net force on the loop is out of the screen. Therefore, the correct option is (A) out of the screen. Magnetic force The force exerted on a charged particle moving in a magnetic field is known as magnetic force. The direction of the magnetic force on the moving charge is perpendicular to the plane formed by the magnetic field and the velocity of the charge.

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Two soccer balls were kicked down the field, Ball A and Ball B. Ball A was kicked farther than Ball B, but Ball B reached a higher height than Ball A. It can be determined that the ball that spent more time in the air was Ball B.

Why Ball B spent more time in the air than Ball A?

Ball B was kicked into the air at a higher angle, meaning it travelled upwards for a longer amount of time. The ball's horizontal velocity would have been lower than Ball A's, causing it to travel a shorter distance horizontally.

However, the additional time Ball B spent travelling upwards and falling back down would have compensated for the shorter horizontal distance travelled, allowing it to remain in the air for longer than Ball A.

Ball A's flight time would have been shorter than Ball B's flight time because of its high horizontal velocity. Because Ball B had a higher initial upward velocity, it travelled higher in the air and took longer to fall back down, resulting in a longer flight time. As a result, Ball B spent more time in the air than Ball A.

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The planet Uranus is unique in that it rotates on its side, with an axial tilt of approximately 98 degrees.

This means that Uranus essentially orbits the sun on its side, with its poles facing towards and away from the sun at different times during its orbit.

This unusual orientation results in extreme seasonal variations, with each pole experiencing over 20 years of continuous sunlight followed by over 20 years of darkness.

Additionally, Uranus has a relatively cold interior and a thick atmosphere composed primarily of hydrogen, helium, and methane.

Therefore, the response "it rotates on its side" is correct which makes planet Uranus unique.

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Some factors which may cause errors in the measured values include inaccurate measuring instruments, poor technique, incorrect calculations, and poor experimental conditions.

Some factors that may have caused errors in your measured values are: inaccurate measuring instruments, poor technique, incorrect calculations, and poor experimental conditions.

The impulse is equal to the change in momentum. The measured values for impulse and calculated values for change in momentum should be equal. The impulse is equal to the product of the average force applied to the object and the time during which it was applied. The change in momentum is equal to the product of the object's mass and its change in velocity, and it can be calculated using the equation Δp = mΔv.

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The ratio of the potential energies U1/U2 of charges q1 and q2. The ratio of the potential energies U1/U2 of charges q1 and q2.

The ratio of the potential energies U1/U2 of charges q1 and q2 due to their interactions with point charge Q is equal to the ratio of the inverse squares of their respective distances from the charge Q: U1/U2 = (1/(r^2))/(1/(2r^2)) = 1/4.

The ratio of the potential energies U1/U2 of charges q1 and q2 due to their interactions with the negative plate of a parallel-plate capacitor is equal to the ratio of the inverse squares of their respective distances from the negative plate: U1/U2 = (1/(s^2))/(1/(2s^2)) = 1/4.

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Hot Jupiters came as a surprise to scientists because these planets are so close to their stars. Hot Jupiters orbit much closer to their stars than the terrestrial and jovian planets in our solar system. Despite their close proximity to their stars, these planets are still relatively large compared to the other planets in their systems.

Based on what we know about our own solar system, the discovery of hot Jupiter came as a surprise to scientists because these planets are so close to their stars.

Hot Jupiters, also known as roaster planets or bloated gas giants, are gas giant planets with a mass similar to Jupiter, but they orbit much closer to their parent stars. They have orbital periods of fewer than ten days and an average distance of fewer than 0.1 astronomical units (AU).

Hot Jupiters are a strange type of planet because, according to the latest models of solar system development, planets with such high masses could not have developed so close to their host star. As a result, Hot Jupiters were an unexpected discovery. They are so close to their parent star that their atmospheric temperature is around 1,500 degrees Celsius. Hot Jupiters are also known for their extreme temperature fluctuations since one side is always facing its host star while the other is in perpetual darkness.

Hot Jupiters are only one of the many types of exoplanets discovered in recent years that differ significantly from the ones in our solar system. The existence of such planets has expanded our knowledge of the universe and of the various solar systems present in the universe.

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The forces that act on the bicycle + rider system are Gravity, normal force, static friction, kinetic friction, air resistance, and rolling friction.

The force that pulls objects toward the center of a planet or another body is called gravity. All the planets are maintained in their orbits around the sun due to the force of gravity.

The force surfaces exert to prevent solid objects from passing through one another is known as the normal force.

When there is no relative motion between the object and the surface, a body is subject to a particular form of friction force known as static friction.

The forces that oppose the motion of an object as it travels through the air are known as air resistance.

A force called rolling friction opposes a rolling object's motion on a surface. Rolling resistance is another name for rolling friction.

Hence, Gravity, normal force, static friction, kinetic friction, air resistance, and rolling friction are the forces acting on the bicycle and rider system.

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Parts of the mixer become hot because some of the electrical energy is converted into heat energy.

When electrical energy flows through a wire, it encounters resistance, which causes the wire to heat up. In a mixer, the electric motor converts electrical energy into mechanical energy to rotate the blades, but some of the electrical energy is lost as heat due to resistance in the motor's winding and other electrical components. This heat energy can accumulate in the mixer's parts and cause them to become hot. In many electrical devices, heat is an undesirable byproduct of energy conversion and can lead to reduced efficiency, damage, or safety hazards.

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--The complete Question is,  Fill in the blanks. " Parts of the mixer become hot because some of the electrical energy is changed into____"--

The work done by the force in moving the object from x = 0.00 m to x = 2.7 m is 69.03 J.

To calculate the work done by a force, we can use the following formula:

[tex]$$W = \int F(x) dx$$[/tex]

where F(x) is the force as a function of position, and the integral is taken over the distance the object is moved.

In this case, the force is given by [tex]$F(x) = bx^3 = 3.7x^3$[/tex] [tex]N/m^3[/tex] . The distance the object is moved is from x = 0.00 m to x = 2.7 m. Therefore, we can calculate the work done by the force as follows:

[tex]$$W = \int_{0.00}^{2.7} F(x) dx = \int_{0.00}^{2.7} (3.7x^3) dx $$[/tex]

[tex]$$W = \left[\frac{3.7x^4}{4}\right]_{0.00}^{2.7} = \left[\frac{3.7(2.7^4)}{4}\right] - \left[\frac{3.7(0.00^4)}{4}\right]$$[/tex]

[tex]$$W = 69.03 \text{ J}$$[/tex]

Therefore, the work done by the force in moving the object from x = 0.00 m to x = 2.7 m is 69.03 J.

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If the person in the boat were to push the sides of the boat down harder but with the same frequency, the waves that are produced would be larger and more intense.

А wаve is а disturbаnce thаt trаvels through spаce аnd time, usuаlly trаnsferring energy from one plаce to аnother without cаusing аny permаnent disturbаnce. This disturbаnce cаn cаuse oscillаtions in the mediа through which it trаvels.

Wаve intensity is defined аs the аmount of energy thаt pаsses through а unit аreа in а unit of time. Wаve intensity is directly proportionаl to wаve аmplitude squаred, meаning thаt the greаter the wаve аmplitude, the greаter the wаve intensity.

When а wаve hаs more energy, it will cаuse greаter wаter displаcement аnd lаrger wаves. Аs а result, if the person in the boаt were to push the sides of the boаt down hаrder but with the sаme frequency, the wаves thаt аre produced would be lаrger аnd more intense.

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The graph would look like a series of two linear slopes, one going up and one going down.

A linear slope, also known as a straight-line slope, refers to the rate of change of a linear function, which is represented by a straight line on a graph. In mathematical terms, the slope is defined as the ratio of the change in the vertical coordinate (y) to the change in the horizontal coordinate (x) between any two points on the line.

The slope of a linear function is constant throughout the line, meaning that the rate of change remains the same regardless of the position on the line. Linear slopes are used in a variety of mathematical applications, including geometry, physics, engineering, and economics, among others. They are particularly useful for modeling relationships between two variables, such as distance and time, or price and quantity.

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The correct answer is B). Reflection, refraction, and the formation of images by mirrors and lenses has been successful described by the Ray Model of Light.

Reflection, refraction, and the formation of images by mirrors and lenses can be explained using the Ray Model of Light, which states that light travels in straight lines, called rays.

As an electromagnetic wave, light travels in straight lines along narrow beams of light, which are referred to as rays. Despite the fact that reflection or refraction can alter its path, light always moves in a straight line.

When light rays reflect off a surface or pass through a lens, the angle of reflection or refraction can be calculated using geometry and the law of reflection/refraction.

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Length of the model Hm = 12 cm. The flow velocity Vm = 5 m/s. Frekuensi yang sesuai untuk skala penuh komponen struktural jembatan adalah 2,7 Hz.

To determine the length of the model, Hm, for geometric scaling, you must use the relationship Hm/H = Dm/D, where Dm is the model's diameter, D is the full scale structure's diameter, and Hm and H are the model and full-scale heights, respectively. Substituting in the given values, we have Hm/300 cm = 2 cm/20 cm, which can be solved for Hm to find that Hm = 12 cm.

To determine the flow velocity Vm for Reynolds number scaling, you must use the relationship Vm/V = sqrt(rhoH2O/rho)*(D/Dm), where rho is the air density and rhoH2O is the water density. Substituting in the given values, we have Vm/25 m/s = sqrt(1000 kg/m3/1.225 kg/m3)*(20 cm/2 cm). Solving for Vm, we find that Vm = 5 m/s.

To determine the shedding frequency for the full-scale structure of the bridge, we must use the relationship f/fmodel = (Vmodel/V)*(Dmodel/D). Substituting in the given values, we have f/27 Hz = (5 m/s/25 m/s)*(2 cm/20 cm). Solving for f, we find that the corresponding frequency for the full-scale structural component of the bridge is 2.7 Hz.

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The ratio of the speed of a comet at perihelion to its speed at aphelion is 6.08:1.

The ratio of the speed of a comet at perihelion to its speed at aphelion can be found using Kepler's second law. Kepler's second law states that "the line from the sun to a planet sweeps equal areas in equal times."

The distance between the sun and the comet at perihelion is 1 AU, and the distance between the sun and the comet at aphelion is 37 AU. So, the distance traveled by the comet in the orbit is 37 + 1 = 38 AU.

The time taken to complete the orbit is the same at both perihelion and aphelion. So, the area swept by the comet in its orbit at perihelion is equal to the area swept at aphelion.

Since the area of an ellipse is given by the formula A = πab, where a is the semi-major axis, and b is the semi-minor axis, the area swept by the comet in its orbit is proportional to the product of the semi-major and semi-minor axes. The semi-major axis is (37 + 1)/2 = 19 AU, and the semi-minor axis is √(37*1) = √37 AU.

So, the ratio of the semi-major axes of the ellipse at perihelion and aphelion is

19²:√37² = 361:37

The ratio of the velocity of the comet at perihelion and aphelion is proportional to the ratio of the semi-major axes. So, the ratio of the velocity of the comet at perihelion to its velocity at aphelion is 361:37 = 6.08:1

Therefore, the speed of a comet at perihelion has a ratio to its speed at aphelion of 6.08:1.

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Option D. The electromagnetic force is a force that acts on charged particles.

The electromagnetic force is a fundamental force of nature that acts on charged particles. It is one of the four fundamental forces of nature, the other three being the strong nuclear force, the weak nuclear force, and gravity. The electromagnetic force is responsible for all electromagnetic phenomena, including electricity, magnetism, and electromagnetic radiation. Charge is the property of matter that is responsible for the electromagnetic force.

All particles that have a charge, including electrons and protons, interact with the electromagnetic force. The electromagnetic force is mediated by the electromagnetic field, which is created by charged particles. When charged particles move, they create electromagnetic waves, which can travel through space at the speed of light.

The electromagnetic force is responsible for a wide range of phenomena, including the structure of atoms, the behavior of magnets, and the behavior of light. It is a very strong force, much stronger than the weak nuclear force and gravity, but weaker than the strong nuclear force. The electromagnetic force is responsible for the repulsion between like charges and the attraction between opposite charges. It is also responsible for the behavior of magnetic materials, such as iron, which can be magnetized by an external magnetic field.

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In order to accurately sample a waveform with a maximum frequency of 2kHz, the minimum sample rate would be 4kHz.

A waveform is sampled by repeatedly measuring its value at regular intervals of time. The process of sampling a waveform is known as sampling. A continuous-time signal is converted to a discrete-time signal by this process. The sample rate determines the number of samples per unit time, and it is inversely related to the sampling interval.

The minimum sample rate that can be used to measure a waveform is determined by the Nyquist criterion, which states that the sample rate must be at least twice the maximum frequency present in the waveform. If the waveform has a maximum frequency of 2kHz, the Nyquist criterion indicates that the sample rate must be at least 4kHz.

Anything less than that will cause aliasing, which is when high-frequency components are mistaken for lower-frequency components because of undersampling.

Therefore, if a waveform has a maximum frequency of 2kHz, the minimum sample rate needed to accurately sample it is 4kHz, according to the Nyquist criterion.

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The maximum speed of the photoelectrons emitted from the clean nickel surface is 6.70 × 10⁵ m/s.

Calculate the energy of a photon.E = hc/λwhere, h = Planck’s constant = 6.626 × 10⁻³⁴ Js, c = speed of light = 3 × 10⁸ m/sE = 6.626 × 10⁻³⁴ × 3 × 10⁸/241 × 10⁻⁹E = 8.21 × 10⁻¹⁸ J

Calculate the kinetic energy of the photoelectrons.

K.E. = E – W₀K.E. = 8.21 × 10⁻¹⁸ J – 5.10 × 1.6 × 10⁻¹⁹ J = 7.09 × 10⁻¹⁹ J

K.E. = 1/2 mv² where, m = mass of photoelectron, v = velocity of photoelectron, and K.E. = kinetic energy of photoelectronv = √(2K.E./m) = √[(2 × 7.09 × 10⁻¹⁹ J)/(9.1 × 10⁻³¹ kg)]v = 6.70 × 10⁵ m/s or 0.224c

So, the maximum speed of the photoelectrons emitted from this surface is 6.70 × 10⁵ m/s.

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Answer:

Throwing a ball up into the air. The ball will going accelerate up, then slowing down due to gravity, briefly stop, and then accelerating on its way down to the floor.

Explanation:

1) The box slides 23.6 m before stopping.

2) The coefficient of friction is 0.600.

3)  If the friction coefficient had a constant value of 0.100, then the box would have slid a distance of 12.5 m

1)Using the work-energy theorem, we can find how far the box slides before it stops. The theorem states that the work done by all forces acting on the object is equal to the change in its kinetic energy, or:
W = ΔKE

Where W is the work done by all forces, and ΔKE is the change in kinetic energy. Since the work done by all forces is equal to the friction force, the work done by friction is equal to the change in kinetic energy. Therefore, the equation can be rewritten as:
Wfriction = ΔKE

In this situation, the friction force increases linearly with distance, so the work done by friction (Wfriction) is the integral of the friction force over the distance. The integral is equal to the area under the graph of friction force versus distance. Therefore, the equation can be rewritten as:
∫Ffriction(x)dx = ΔKE

The integral is equal to the area under the graph of friction force versus distance from 0 to the stopping point. Since the coefficient of friction increases linearly from 0.100 at P to 0.600 at 12.5 m past point P, we can calculate the stopping point using the equation:
0.100x + 0.500(x-12.5) = ΔKE

Solving the equation for x, we find that the box stops at x = 23.6 m.

2)At the stopping point, the coefficient of friction is 0.600.

3) This is because the integral of the friction force with a constant coefficient of 0.100 is equal to 0.100x, where x is the distance traveled.

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The brain signals for these voluntary actions originated in the cerebrum of your cousin's brain.

Voluntary actions are actions that are planned or executed consciously. Involuntary actions occur naturally, without conscious control, and cannot be changed. When you see something interesting, your brain sends signals to your body that cause you to move your arms or legs, speak or even blink your eyes.

The cerebrum is the largest part of the human brain and it is located at the top and front of the brain. It is the region in the brain that is responsible for conscious thought, voluntary movement, sensation, and memory.

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The best describes the movement of the object between the times of 0 and 6 on the graph is moving at a constant speed. Therefore, option A is correct.

Moving occurs when an object's location compared to a fixed spot changes. Even seemingly stationary things shift. When one item moves in connection to another, we say it is moving relative to the other object.

Kinematics is the field of physics concerned with forces and their effects on motion, whereas dynamics is concerned with forces and their effects on motion. When a force pushes or draws on an item, it moves in the same way as the force.

Thus, option A is accurate because the object moves at a consistent pace between periods 0 and 6 on the graph.

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The moment of inertia of the square about an axis through the center and perpendicular to the plane of the square is I = m a²/3.

Step by step explnation:

The moment of inertia about an axis through the center and perpendicular to the plane of the square can be found using the parallel-axis theorem. The moment of inertia about the center of the square is [tex]I_c_m[/tex] = (m a²)/6.

Using the parallel-axis theorem, the moment of inertia about an axis through the center and perpendicular to the plane of the square is I = [tex]I_c_m[/tex] + m a² = ma²/3.

Thus, the moment of inertia of the square about an axis through the center and perpendicular to the plane of the square is I = m a²/3.

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The main difference between a mission and a vision is that a mission defines a company's purpose, while a vision outlines its long-term goals.

The five characteristics of a vision are:

Inspiring: A vision should be inspiring and give people something to strive for. The primary difference between vision and mission is that the former defines the company's ultimate goal, whereas the latter outlines the company's strategic path to accomplishing that goal. A mission statement is a brief statement that summarizes an organization's core goal, competitive benefit, and guiding principles. It is a short, straightforward declaration of what a company intends to achieve in the long run.

A vision statement, on the other hand, is a forward-thinking declaration of where the company hopes to be in the future. It describes the company's aspirations and anticipations. In this answer, we will describe the five characteristics of a vision.

Five characteristics of a vision:

1. Clear and concise: A vision statement should be short, understandable, and to the point.

2. Realistic: It should be achievable while also being challenging.

3. Time-bound: It should have a timeframe within which it must be accomplished.

4. Flexible: It should be adaptable to shifting market dynamics, environmental conditions, or technological advancements.

5. Inspiring: It should motivate and engage staff, customers, and stakeholders.

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Explanation:

Dogs to cats =   42:24    or    21:12    ( divide through by 2)

  or   14:8     ( divide the original through by 3)

 or   7:4       ( divide through by 6)

A-frequency

This means that if two sound waves have different frequencies, they will be perceived as having different pitches, even if they have the same amplitude or loudness. Therefore, option A is the correct answer.

What is Amplitude?

Amplitude refers to the maximum displacement or distance moved by a point on a vibrating body or wave, measured from its equilibrium or rest position. In other words, it is the intensity or strength of a wave or vibration.

Amplitude is usually represented by the height of the wave's crest or the depth of its trough.

In the context of sound waves, pitch refers to the perception of the frequency of a sound. The frequency of a sound wave is the number of vibrations or cycles that occur in one second and is measured in hertz (Hz). The higher the frequency of a sound wave, the higher the pitch of the sound.

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The ratio of the gravitational force of the Sun to the gravitational force of the Earth on the Moon when the average Sun-Moon distance is equal to the Sun-Earth distance is 360,000.

The gravitational force is defined as the attractive force between two objects with mass. It is proportional to the product of their masses and inversely proportional to the square of the distance between them. Therefore, the formula for the gravitational force is:

F = G × m1 m2/d²

Where

F is the gravitational force,

G is the gravitational constant,

m1 and m2 are the masses of the two objects, and

d is the distance between them.

Now, let's consider the Moon's gravitational attraction to the Sun and the Earth, respectively.

Let F sun be the gravitational force of the Sun on the Moon, and F earth be the gravitational force of the Earth on the Moon. Both of these gravitational forces are described as:

F sun = G × M sunM moon/Ds²

Fearth = G × M earth M moon/De²

Where M sun, M earth, and M moon are the masses of the Sun, Earth, and Moon, respectively.

Ds is the distance between the Sun and the Moon, while De is the distance between the Earth and the Moon.

The average Sun-Moon distance is equal to the Sun-Earth distance, meaning that Ds = De.

Therefore, we can express the ratio of the gravitational force of the Sun to the gravitational force of the Earth on the Moon as follows:

F sun/F earth = (G × M sun M moon/Ds²)/(G × M earth M moon/De²)

= (M sun/M eart) × (De/Ds)²

= (1.99 × 1030/5.97 × 1024) × (149.6 × 106/384,400)²

= 360,000

Therefore, the ratio of the gravitational force of the Sun to the gravitational force of the Earth on the Moon when the average Sun-Moon distance is equal to the Sun-Earth distance is 360,000.

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Astronomers prefer to use infrared telescopes on high-flying airplanes or on satellites in space because the atmosphere of the Earth blocks a significant amount of infrared light. By placing these telescopes in the sky or in space, astronomers can get a better view of infrared light from distant objects in the universe.

Airborne telescopes can offer temporary access to the observable range of the electromagnetic spectrum blocked by water vapor and ozone layer.The atmosphere filters out and absorbs some of the infrared light. The atmosphere consists of many layers. Infrared light does not get through the layer of ozone, water vapor, or carbon dioxide that makes up the lower part of the atmosphere. However, the higher atmosphere is transparent to infrared light. So, flying above this layer can give astronomers a much clearer and less obstructed view of the universe.

Satellites can offer a better view of the universe without interference from the Earth’s atmosphere. In space, the telescope is not hampered by the Earth's atmosphere. For example, the Hubble Space Telescope, which orbits about 570 km above Earth's surface, provides a clearer view of the universe in ultraviolet, visible, and near-infrared wavelengths than ground-based telescopes do. It has discovered galaxies, stars, and phenomena far beyond the reach of Earth-based telescopes.

They offer the possibility of carrying bigger and heavier instruments than a ground-based observatory.The weight of an airborne telescope is significantly reduced in comparison to a ground-based telescope because it is placed above the Earth’s atmosphere, and this has the advantage of allowing for more extensive equipment, including larger and heavier telescopes. Satellites have the same advantage as they are not limited by the size of the payload.

Airborne telescopes and satellites can observe celestial objects in the infrared spectrum.Infrared light is absorbed by the Earth's atmosphere. As a result, infrared telescopes that are placed on the ground will be less successful. As a result, astronomers prefer to place them on airborne telescopes and satellites, which are above the Earth's atmosphere. This makes it possible for infrared telescopes to examine the universe and make discoveries that would otherwise be impossible to observe from the ground.

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Porter would say that the bargaining power of suppliers goes down when a company is readily able to switch to another company in order to get the raw materials it needs to make products.

It is referred to as the ability of suppliers to control the cost, quality, and availability of raw materials or components required by businesses to manufacture their products.

It is determined by a number of factors, including

Switching costs: When switching to another supplier is expensive or difficult, suppliers' bargaining power is increased.

Cost of inputs: When the cost of raw materials is high, suppliers' bargaining power is increased and vice versa.

The number of suppliers: When there are a limited number of suppliers, each supplier has more bargaining power. Suppliers' strength: When suppliers are large and well-established, they have more bargaining power.

Product differentiation: When suppliers offer unique and high-quality inputs, their bargaining power is increased.

Thus, Porter would say that the bargaining power of suppliers goes down when a company is readily able to switch to another company in order to get the raw materials it needs to make products.

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Answer:

Change in momentum: [tex]\langle -0.3,\, 0,\, 0\rangle\; {\rm kg \cdot m\cdot s^{-1}}[/tex].

Change in kinetic energy: approximately [tex](-0.2)\; {\rm J}[/tex].

Explanation:

Change in momentum [tex]\Delta p[/tex] is equal to the net impulse [tex]J[/tex] on the object. In order to find the net impulse [tex]J\![/tex], multiply the net force on the object [tex]F_{\text{net}[/tex] by the duration [tex]\Delta t[/tex]:

[tex]\begin{aligned} J &= F_{\text{net}}\, \Delta t \\ &= (1.5)\, \langle -0.2,\, 0,\, 0\rangle\; {\rm N\cdot s} \\ &= \langle -0.3,\, 0,\, 0\rangle\; {\rm kg \cdot m\cdot s^{-1}} \end{aligned}[/tex].

Since the change in momentum is equal to net impulse:

[tex]\Delta p = J = \langle -0.3,\, 0,\, 0\rangle\; {\rm kg \cdot m\cdot s^{-1}}[/tex].

Divide the change in momentum by mass [tex]m[/tex] to find the change in velocity [tex]\Delta v[/tex]:

[tex]\begin{aligned}\Delta v &= \frac{\Delta p}{m} \\ &= \frac{\langle -0.3,\, 0,\, 0\rangle}{0.8}\; {\rm m\cdot s^{-1}} \\ &\approx \langle -0.375,\, 0,\, 0\rangle\; {\rm m\cdot s^{-1}}\end{aligned}[/tex].

Thus, velocity has changed from [tex]u = \langle 0.9,\, 0,\, 0\rangle\; {\rm m\cdot s^{-1}}[/tex] to:

[tex]\begin{aligned} v &= u + \Delta v \\ &= \langle 0.9,\, 0,\, 0\rangle\; {\rm m\cdot s^{-1}} \\ &\quad + \langle -0.375,\, 0,\, 0\rangle\; {\rm m\cdot s^{-1}} \\ &= \langle 0.525,\, 0,\, 0\rangle\; {\rm m\cdot s^{-1}}\end{aligned}[/tex].

The initial kinetic energy (a scalar) was:

[tex]\begin{aligned}(\text{KE, initial}) &= \frac{1}{2}\, m\, {(\| u\|_{2})}^{2} \\ &\approx \frac{1}{2}\, (0.9^{2})\; {\rm J} \\ &=0.324\; {\rm J}\end{aligned}[/tex].

The new kinetic energy would be:

[tex]\begin{aligned}(\text{KE}) &= \frac{1}{2}\, m\, {(\| u\|_{2})}^{2} \\ &\approx \frac{1}{2}\, (0.525^{2})\; {\rm J} \\ &= 0.11025\; {\rm J}\end{aligned}[/tex].

Hence, the change in kinetic energy would be:

[tex]\begin{aligned} &(\text{KE}) - (\text{KE, initial}) \\ \approx\; & 0.324\; {\rm J} - 0.11025\; {\rm J}\\ \approx \; & (-0.2)\; {\rm J} \end{aligned}[/tex].