According to the article, how were the gravitational waves generated?

Answer:A: vibrate parallel to the direction of the wave's propagation.

Explanation:

Therefore, the tangential acceleration of the wheel at this time point is [tex]32.0 m/s^2.[/tex]

We can use the formula for tangential acceleration:

[tex]a_t = r * \alpha[/tex]

Here a_t is the tangential acceleration, r is the radius of the wheel, and α is the angular acceleration.

r = 40.0 cm = 0.4 m

α = 80.0 [tex]rad/s^2[/tex]

initial angular velocity, [tex]w_i[/tex]= 10.0 rad/s

We need to find the tangential acceleration, [tex]a_t[/tex].

First, we can find the final angular velocity, [tex]w_f[/tex], using the formula:

[tex]w_f = w_i + \alpha * t[/tex]

Here t is the time for which the wheel accelerates.

To find the time t, we can use the formula for angular displacement:

θ [tex]= w_i * t + 0.5 * \alpha * t^2[/tex]

Since the wheel starts from rest (initial angular velocity is given as 10.0 rad/s) and the angular displacement is not given, we assume that the initial angular displacement is zero, so that

θ = 0.5 * α * [tex]t^2[/tex]

Solving for t, we get:

t = [tex]\sqrt{ ((2 * pi) / 80}[/tex]

θ = 2π radians (one complete revolution)

Now, we can find the final angular velocity,[tex]w_f:[/tex]

[tex]w_f = w_i[/tex] + α * t = 10.0 + 80.0 * 0.2827 = 32.22 rad/s

Finally, we can find the tangential acceleration:

[tex]a_t[/tex] = r * α = 0.4 * 80.0 = 32.0 [tex]m/s^2[/tex]

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Answer: The velocity of the car after 5 seconds is 10 m/s

Explanation: The formula for finding final velocity is

v = u + at.

Where v is final velocity, u is initial velocity, a is acceleration, and t is time.

The radius, in meters of the orbit of an electron around a Hydrogen atom in the n = 4 state according to Bohr's theory is 5.29 x [tex]10^{-11}[/tex] m.

The radius of the orbit of an electron around a Hydrogen atom in the n = 4 state according to Bohr's theory can be found using the formula:

r = (n² × h² × ε0) / (π × m × e²)

where:

n = 4 (quantum number)

h = Planck's constant = 6.626 x [tex]10^{-34}[/tex] Js

ε0 = permittivity of free space = 8.85 x [tex]10^{-12}[/tex] C²/Nm²

m = mass of electron = 9.109 x [tex]10^{-31}[/tex] kg

e = elementary charge = 1.602 x [tex]10^{-19}[/tex] C

Plugging in the values, we get:

r = (4² × (6.626 x [tex]10^{-34}[/tex])² × 8.85 x [tex]10^{-12}[/tex]) / (π × 9.109 x [tex]10^{-31}[/tex] × (1.602 x [tex]10^{-19}[/tex])²)

r = 5.29 x [tex]10^{-11}[/tex] m

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The question is -

In Bohr's model of a Hydrogen atom, electrons move in orbits labeled by the quantum number n.

Randomized Variables,

Find the radius, in meters of the orbit of an electron around a Hydrogen atom in the n = 4 state according to Bohr's theory.

The Power is measured in E) watts. In electrical systems, power (P) represents the rate at which electrical energy is converted to another form, such as mechanical or thermal energy. The unit for power is the watt (W), named after the Scottish engineer James Watt.

To calculate electrical power, you can use the formula P = V * I where P represents power in watts, V is the voltage (in volts), and I is the current in amperes or amps. By knowing the voltage and current in a circuit, you can determine the power being consumed or generated. The other options in your question represent different electrical quantities A) amps - Amperes (A) are the units for measuring electric current. B) volts - Volts (V) are the units for measuring electric potential difference or voltage. C) ohms - Ohms (Ω) are the units for measuring electrical resistance. D) siemens/cm - Siemens per centimeter (S/cm) is a unit for measuring electrical conductivity. To summarize, power in electrical systems is measured in watts (W), which is the rate of converting electrical energy into other forms.

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A. Your weight

the weight makes it go down and the result of gravity or (w = m * g

The correct statement among the given options is b. The image could be real or virtual, depending on how far the object is past the focal point.

This statement accurately describes the behavior of a lens. When an object is placed beyond the focal point of a lens, a real and inverted image is formed on the opposite side of the lens.

This situation corresponds to a real image. However, if the object is placed between the lens and its focal point, the image formed is virtual, upright, and on the same side as the object.

Thus, depending on the object's position relative to the focal point, the image can be either real or virtual.

The image being erect or inverted (option c) and the image always being on the opposite side of the lens from the object (option d) are incorrect statements.

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An electromagnet is a coil of wire with a current running through it, creating an electromagnetic field. This field interacts with the poles of an additional magnet, causing an electromagnetic motor to turn.

To make an electromagnetic motor stronger, you could increase the current flowing through the coil, use more turns of wire in the coil, or use a stronger magnet.

In everyday life, this phenomenon can be seen in electric motors used in appliances, vehicles, and industrial machinery. To strengthen the electromagnetic force in these motors, one could hypothesize increasing the power supply to the coil, using better conducting materials, or incorporating stronger permanent magnets to enhance the overall efficiency and performance of the motor.

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The magnitude of the angle subtended by the red blood cell when viewed through this microscope is approximately 1 x 10^-6 radians.

The magnification of a microscope is given by the ratio of the focal length of the objective lens to the focal length of the eyepiece:

M = [tex]fo / fe[/tex]

where M is the magnification, fo is the focal length of the objective lens, and fe is the focal length of the eyepiece.

To determine the angle subtended by the red blood cell when viewed through the microscope, we can use the formula:

θ = d / f

where θ is the angle subtended by the object, d is the diameter of the object, and f is the focal length of the objective lens.

Assuming that the diameter of a red blood cell is 8 µm, we can calculate the angle subtended by the cell as follows:

θ = [tex](8 µm) / (0.49 cm) = 1.63 x 10^-5 radians[/tex]

Now, we can use the magnification of the microscope to find the angle subtended by the cell when viewed through the eyepiece:

θ' = [tex]Mθ = (fo / fe)θ[/tex]

Substituting the given values, we get:

θ' =[tex](0.49 cm / 2.5 cm) x 1.63 x 10^-5 radians ≈ 1 x 10^-6 radians[/tex]

Therefore, the magnitude of the angle subtended by the red blood cell when viewed through this microscope is approximately [tex]1 x 10^-6[/tex] radians.

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The light is incident from the substance with an index of refraction of 1.53. The other side of the interface has an index of refraction of 1.18. the critical angle where there is total internal reflection is 49.5 degrees.

To find the critical angle where there is total internal reflection, we need to use Snell's law:
n1 sin(theta1) = n2 sin(theta2)
where n1 and n2 are the indices of refraction of the two materials and theta1 and theta2 are the angles of incidence and refraction, respectively.
At the critical angle, the angle of refraction will be 90 degrees, meaning the light will be reflected back into the first material. So we can set theta2 to 90 degrees and solve for theta1:
n1 sin(theta1) = n2 sin(90)
n1 sin(theta1) = n2
sin(theta1) = n2/n1
Plugging in the values for n1 and n2, we get:
theta1 = 49.5 degrees

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Answer:

When work is positive, it means that an external force did work on the object and transferred energy to it. This means that the object gained energy as a result of the work done on it, and its potential energy or kinetic energy increased. Option d, "An object did work on the environment," is not an accurate definition of positive work, as this would be negative work since the object is losing energy and doing work on the environment. Therefore, the correct answer is:

c. The environment did work on an object.

Explanation:

The answers are a) Tension in cable = 285 N b) Horizontal component of force at wall = 190 N
c) Vertical component of force at wall = 95 N

To solve this problem, we need to use the principles of static equilibrium, which state that the sum of all forces acting on an object must be equal to zero, and the sum of all torques (or moments) about any point must also be equal to zero.

a) Let's consider the forces acting on the beam. We have the weight of the beam acting downwards (190 N), the tension in the cable pulling upwards, and the force exerted on the beam at the wall. Since the beam is not moving, the sum of these forces must be zero. Therefore:
Tension in cable - force at wall = 190 N
Since the center of gravity of the beam is at its center, the force at the wall acts horizontally and has no vertical component. Therefore, the tension in the cable is equal in magnitude to the force at the wall. Solving for the tension, we get:
Tension in cable = force at wall + 190 N

b)torque = force x distance = F_h x L/2
where L is the length of the beam. This torque must be balanced by an equal and opposite torque created by the weight of the beam, which acts downwards at a distance L/2 from the center of gravity. Therefore:
torque due to weight = weight x distance = 190 N x L/2
Since the torques must be equal, we can set these two expressions equal to each other and solve for the horizontal component of the force at the wall:
F_h = (190 N x L/2) / (L/2) = 190 N

c) torque due to weight = weight x distance = 190 N x L/4
The tension in the cable also creates a torque about point P, since it acts at a distance L/2 from this point. The torque due to tension is:
torque due to tension = tension x distance = Tension x L/2
The horizontal component of the force at the wall does not create any torque about point P, since its line of action passes through this point. Therefore, the sum of torques about point P must be equal to zero. This gives us:
Tension x L/2 - 190 N x L/4 = 0
Solving for the tension, we get:
Tension in cable = 95 N
Therefore, the vertical component of the force at the wall is:
F_v = 190 N - 95 N = 95 N

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The names primary and secondary refer to wave motion. Primary wave motion is the motion of the particles of the material medium in which the wave is travelling.

They move in the same direction as the wave and have an amplitude that is equal to the amplitude of the wave. Secondary wave motion is the motion of the particles that is perpendicular to the direction of the wave and has an amplitude that is much smaller than the amplitude of the wave. The primary wave motion is the most important component of a wave, while the secondary wave motion is less significant.

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The combination of one s and two p orbitals will form a group of three hybrid orbitals, also known as sp2 hybrid orbitals. These orbitals adopt a trigonal planar geometry, which means that they are arranged in a flat triangle with the nucleus at the center.

The hybridization of one s and two p orbitals results in three sp2 hybrid orbitals that have a bond angle of 120 degrees between any two of them. This bond angle is determined by the repulsion between the electron pairs in the hybrid orbitals, which strive to minimize their energy by maximizing their separation. The trigonal planar geometry of sp2 hybrid orbitals is commonly found in molecules with a double bond or a lone pair of electrons on the central atom, such as in the case of carbon in the molecule ethylene.

In summary, the combination of one s and two p orbitals will form sp2 hybrid orbitals that adopt a trigonal planar geometry with a bond angle of 120 degrees between any two of them. This hybridization process is essential for understanding the molecular structure and bonding in organic and inorganic chemistry.

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The energy stored in the capacitor after the dielectric material is removed is 40 J.

U = 1/2 * C * V²

20 J = 1/2 * C * V²

C = (k * ε0 * A) / D

The new energy stored in the capacitor is:

U' = 1/2 * C' * V²

U' = 1/2 * (k * ε0 * A) / D * V²

U' / U = C' / C = k

Substituting the values of k = 2 and U = 20 J, we get:

U' = k * U = 2 * 20 J = 40 J

A capacitor is a fundamental component of electrical circuits that stores electrical energy in an electric field. It is made up of two conductive plates separated by an insulating material called a dielectric. When a voltage difference is applied to the plates, an electric field is created between them, which causes electrons to accumulate on one plate and leave the other plate with a positive charge. This separation of charge results in the storage of electrical energy in the capacitor.

The amount of charge a capacitor can store is determined by its capacitance, which is measured in Farads. Capacitance depends on the size of the plates, the distance between them, and the type of dielectric material used. Capacitors are used in a wide range of applications, including power supply filters, tuning circuits, and signal coupling. They can also be used to store energy for brief periods in electronic flash units, camera strobes, and defibrillators.

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The correct options based on the information will be:

In regards to this endeavor, a control group is one where variables are retained as a form of comparison against an experimental group that has alterations made.

As such, Group B serves as the untouched element here and remains unaltered in terms of culinarian, crust firmness, topping selection, and cooking duration, while Group A is the subject in question whose variable being tested is the variation in approaches for preparing their pizza (like brick-oven heating versus conventional ovens).

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The displacement from equilibrium when hanging a 0.5 kg mass from the spring is -0.585 +/- 0.007 m. The displacement from equilibrium when hanging a 0.5 kg mass from the spring can be calculated using Hooke's Law, which states that the force exerted by a spring is directly proportional to its displacement from equilibrium.

The equation for Hooke's Law is F = -kx, where F is the force applied, k is the spring constant, and x is the displacement from equilibrium.

To find the displacement, we can rearrange the equation to x = -F/k. In this case, the force applied is the weight of the mass, which can be calculated as F = mg, where m is the mass and g is the acceleration due to gravity (9.81 m/s^2). Therefore, F = 0.5 kg x 9.81 m/s^2 = 4.905 N.

Substituting the values into the equation, we get x = -4.905 N / 8.37 N/m = -0.585 m. However, we must take into account the uncertainty in the spring constant. The uncertainty in the displacement can be calculated using the formula Δx = |x| x (Δk/k), where Δk/k is the relative uncertainty in the spring constant.

In this case, the relative uncertainty is 0.1/8.37 = 0.012, so the uncertainty in the displacement is Δx = 0.585 m x 0.012 = 0.007 m. Therefore, the displacement from equilibrium when hanging a 0.5 kg mass from the spring is -0.585 +/- 0.007 m.

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The block compresses the spring by 5.7 cm before coming to a stop.

To solve this problem, we need to use conservation of energy.

First, let's find the potential energy of the block at point A.

Since it is released from rest, its initial velocity is zero, so all of its energy is in the form of potential energy:

PE(A) = mgh = (5 lbs) * (32.2 ft/s²) * (1 ft) = 161 J

Next, let's find the kinetic energy of the block at point B.

Since it slides down a smooth surface, there is no friction to do work on the block, so its potential energy at point A is converted entirely into kinetic energy at point B:

KE(B) = PE(A) = 161 J

Now the block slides along a rough surface, so some of its kinetic energy will be converted into thermal energy due to friction.

Let's assume that the block comes to a stop at point C, where it compresses the spring.

At this point, all of the block's kinetic energy has been converted into potential energy in the spring:

PE(C) = KE(B) = 161 J

The potential energy stored in the spring is given by:

PE(spring) = (1/2)kx²

where k is the spring constant and x is the distance the spring is compressed. Since we know the potential energy stored in the spring and the spring constant, we can solve for x:

161 J = (1/2)kx²

x² = 322 J/k

x = √(322 J/k)

Now we just need to know the spring constant.

Let's assume the spring is ideal (i.e. it obeys Hooke's law) and has a spring constant of k = 100 N/m. Then:

x = √(322 J/100 N/m) = 5.7 cm

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In an AC circuit, the voltage and current constantly change direction and magnitude. However, the relationship between voltage and current across a resistor remains constant, according to Ohm's Law (V=IR).

This means that as the current in the circuit changes, the voltage across the resistor will change proportionally. By measuring the voltage across the resistor and comparing it to the current in the circuit, we can determine whether they correspond according to Ohm's Law. This can be done using a voltmeter to measure the voltage and an ammeter to measure the current. If the voltage and current are proportional, then we can conclude that the voltage across the resistor corresponds to the current in the whole circuit. This is an important principle in understanding and analyzing AC circuits.

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The density of the unknown liquid is 405 kg/m³.We can start by finding the buoyant force when the rock is immersed in water.

The buoyant force is equal to the weight of the water displaced by the rock. Since the rock is totally immersed in water, the volume of water displaced is equal to the volume of the rock. Therefore, we can say:
Buoyant force in water = Weight of water displaced = Volume of rock x Density of water x Acceleration due to gravity

We know that the buoyant force in water is equal to the tension in the string when the rock is immersed in water, which is 37.6 N. We also know the density of water (1000 kg/m³) and acceleration due to gravity (9.8 m/s²). Therefore, we can rearrange the equation to solve for the volume of the rock:
Volume of rock = Buoyant force in water / (Density of water x Acceleration due to gravity) = 37.6 / (1000 x 9.8) = 0.00385 m³

Now that we know the volume of the rock, we can use the same equation to find the buoyant force when the rock is immersed in the unknown liquid:
Buoyant force in unknown liquid = Volume of rock x Density of unknown liquid x Acceleration due to gravity

We know the buoyant force in the unknown liquid is equal to the tension in the string when the rock is immersed in the unknown liquid, which is 15.4 N. We also know the volume of the rock (0.00385 m³) and acceleration due to gravity (9.8 m/s²). Therefore, we can rearrange the equation to solve for the density of the unknown liquid:
Density of unknown liquid = Buoyant force in unknown liquid / (Volume of rock x Acceleration due to gravity) = 15.4 / (0.00385 x 9.8) = 405 kg/m³

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Hi, to answer your question regarding the comparison of the magnitudes of kinetic energy (K_A and K_B) of puck A and puck B when they reach the finish line, we need to consider the following steps:

1. Kinetic energy is defined as KE = 0.5 * m * v^2, where m is the mass of the object, and v is its velocity.

2. In order to compare K_A and K_B, we need to know the masses and velocities of both pucks A and B at the instant they reach the finish line.

Since the question does not provide any information about the masses and velocities of the pucks, we cannot determine whether K_A is equal to, greater than, or less than K_B. Therefore, the correct answer is: "You need more information to decide."

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The curve with the given vector equation r(t) = ⟨[tex]t^2 - 1, t[/tex]⟩ is a parabola that opens to the right, and the arrow indicating the direction of increasing t points to the right.

To sketch the curve with the given vector equation r(t) = ⟨[tex]t^2 - 1, t[/tex]⟩, we can plot points for various values of t. For example, when t = 0, r(0) = ⟨-1, 0⟩; when t = 1, r(1) = ⟨0, 1⟩; when t = -1, r(-1) = ⟨0, -1⟩. We can continue to plot points for other values of t and connect them to form a smooth curve.

To indicate the direction in which t increases, we can draw an arrow along the curve that points in the direction of increasing t. In this case, we can see that as t increases, the curve moves to the right, so the arrow should point to the right.

   *

        |

        |

 *------*------*

        |

        |

        *

The arrow indicating the direction in which t increases can be drawn tangent to the curve at any point, such as the point (0, -1) where t = -1. This arrow would point to the right, since t increases as we move from left to right along the curve.

Hence, the given vector equation has a curve which is parabolic in nature.

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When an LC circuit reaches its maximum charge, the capacitor stores energy. If the charge on the capacitor is one-half of the maximum charge, then the energy stored in the capacitor is also one-half of the total energy.

This is because the energy stored in the capacitor is proportional to the square of the charge. Therefore, if the charge is reduced by half, the energy stored will also be reduced by a factor of 4 (0.5^2).

This means that the energy stored in the inductor will also be reduced by the same factor, resulting in a total energy that is one-half of the maximum energy.

It is important to note that this relationship holds true for ideal LC circuits, which do not account for energy losses due to resistance or other external factors.

In practical applications, the actual energy stored may differ slightly from the theoretical calculations.

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The orbital period of Planet 9 at a distance of 560 AU from the Sun is approximately 13,252 years. The correct answer is option b.

To calculate the orbital period of a planet, we use Kepler's Third Law, which states that the square of the orbital period (P) of a planet is proportional to the cube of its average distance from the Sun (r).

So, P² ∝ r³

We can rewrite this equation as P = √(r³) = r^(3/2)

Substituting the values, we get P = (560 AU)^(3/2) = 13,252 years.

Therefore, the orbital period of Planet 9 is approximately 13,252 years.

It's worth noting that Planet 9 is a hypothetical planet, and its existence has not yet been confirmed. Its presence has been inferred based on the unusual orbits of some trans-Neptunian objects in our solar system.

Further observations are needed to confirm its existence and determine its properties accurately.

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A moon that goes inside the Roche Limit will be torn apart by the planet's tidal forces. The correct answer is option D).

The Roche Limit is the minimum distance at which a celestial body, such as a moon, can approach another body without being pulled apart by tidal forces. If a moon goes inside the Roche Limit of its planet, the gravitational forces between the two bodies will exceed the moon's self-gravity and it will be torn apart by the planet's tidal forces.

This is due to the difference in gravitational pull on different parts of the moon, causing it to stretch and eventually break apart. If a moon goes inside the Roche Limit, the gravitational forces acting on it become stronger than the internal forces holding it together, and it will be torn apart by the planet's tidal forces.

Therefore, option D is the correct answer.

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The unknown force acting on the object is 20 N, The correct is option D.

Newton's Second Law of Motion states that the acceleration of an object is directly proportional to the net force acting on it and inversely proportional to its mass. In equation form, it can be written as F_net = m*a, where F_net is the net force acting on the object, m is its mass, and a is its acceleration.

To determine the unknown force acting on the object, we need to apply Newton's Second Law of Motion, which states that the net force acting on an object is equal to its mass times its acceleration:

F_net = m*a

where F_net is the net force acting on the object, m is its mass, and a is its acceleration.

In this case, we know the mass of the object is 3.0 kg and its acceleration is 1.5 m/s² to the right. To find the net force acting on the object, we need to add up all the forces acting on it.

From the free body diagram, we see that the forces acting on the object are:

Top: 35 N (pointing downward)

Right: 25 N (pointing to the right)

Bottom: 35 N (pointing upward)

Left: unknown force (pointing to the left)

To find the net force acting on the object, we can add up the forces along the x-axis and y-axis separately:

Net force along x-axis: F_net,x = F_right - F_left

where F_right is the force pointing to the right (25 N) and F_left is the unknown force pointing to the left.

Since the object is accelerating to the right, we know that the net force along the x-axis must be positive. So we have:

F_net,x = F_right - F_left = m*a

25 N - F_left = (3.0 kg)*(1.5 m/s²)

F_left = 20 N

Therefore, the unknown force acting on the object is 20 N, which is option D.

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During glacial periods, the concentration of 18O in the oceans will be higher compared to interglacial periods. The answer is D)

This is because during glacial periods, much of the Earth's water is locked up in ice sheets, causing the volume of the ocean water to decrease.

Since water containing the lighter isotope 16O evaporates more easily than water containing the heavier isotope 18O, the concentration of 18O in the remaining seawater increases.

The opposite happens during interglacial periods, when the ice sheets melt and the volume of the ocean water increases. As a result, the concentration of 18O in the oceans decreases during interglacial periods.

This change in 18O concentration can be detected in the shells of microorganisms that live in the ocean, and is used by scientists as a tool to study past climate change.

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A) 4π radians did the carousel rotate through.

B) v=rω, v =2*20 = 40 m/s is the tangential velocity of the carousel at a point 2 m from the center of the carousel.

C) α =ω²r = 20²× 5 = 2000 rad/s² is the angular acceleration of the carousel during this time.

D)  the tangential acceleration of the carousel at a point on the outside of the platform is zero cause a(t) = r dω/dt change in angular velocity is zero after it reaches 20 rad/s.

A carousel, also known as a merry-go-round (international), roundabout (British English), or hurdy-gurdy (an archaic phrase in Australian English), is a type of amusement attraction that consists of a spinning circular platform with seats for passengers. Traditional "seats" are rows of wooden horses or other animals set on poles, many of which are moved up and down by gears to mimic galloping to the tune of looping circus music. carousel rotates with a particular velocity.

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Answer:The earthquake wave must be B: longitudinal.

Explanation:In a transverse wave, particles vibrate perpendicular to the direction of wave propagation, forming crests and troughs.

In a longitudinal wave, particles vibrate parallel to the direction of wave propagation, forming compressions and rarefactions.

Since the particles of the rock are vibrating in a north-south direction, which is parallel to the direction of wave propagation from west to east, the wave must be a longitudinal wave.

The rubber ball will reach a height that is 27 times higher if the spring is compressed by 3x compared to when it is compressed by x.

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