bit.♠ly/3♠vhMu♠vJ remove symbols before searching or it wont work, there was a bug stoping me from attaching the image so there it is

Based on the given relation on F on A where  (x, y) ∈F ⇐⇒ (x, y) ∈A ×A, then F is reflexive, not symmetric, and transitive.

To determine whether the relation F on set A = {1, 2, 3} is reflexive, symmetric, and transitive, we need to examine its properties.

A relation is reflexive if every element of A is related to itself. In other words, for all x ∈ A, (x, x) must be in F.

In this case, since F is defined as (x, y) ∈ F if (x, y) ∈ A × A, we can see that for every x ∈ A, (x, x) ∈ A × A. Therefore, F is reflexive.

A relation is symmetric if for every (x, y) in F, (y, x) must also be in F.

In this case, since F is defined based on the Cartesian product of A with itself, if (x, y) ∈ F, it implies that (x, y) ∈ A × A. However, this does not guarantee that (y, x) will also be in A × A, as the order of the elements matters. Therefore, F is not symmetric.

A relation is transitive if for every (x, y) and (y, z) in F, (x, z) must also be in F.

In this case, since F is defined based on the Cartesian product of A with itself, if (x, y) and (y, z) ∈ F, it implies that (x, y) and (y, z) ∈ A × A. Since A × A is a set of all possible ordered pairs of elements in A, it is guaranteed that (x, z) will also be in A × A. Therefore, F is transitive.

Hence,

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The Earth's gravitational force on the Sun is equal to the Sun's gravitational force on the Earth.

According to Newton's law of universal gravitation, the gravitational force between two objects is directly proportional to the product of their masses and inversely proportional to the square of the distance between their centers. Mathematically, it can be expressed as F = G * (m1 * m2) / r^2, where F is the gravitational force, G is the gravitational constant, m1 and m2 are the masses of the two objects, and r is the distance between their centers.

When considering the gravitational interaction between the Earth and the Sun, the masses involved are the mass of the Earth (m1) and the mass of the Sun (m2). The distance between their centers is the average distance between the Earth and the Sun, known as the astronomical unit (AU), which is approximately 149.6 million kilometers or 93 million miles.

The masses of the Earth and the Sun are significantly different, with the Sun being much more massive than the Earth. However, the distance between their centers is also very large.

Given that the gravitational force between two objects is determined by the product of their masses and inversely proportional to the square of the distance, the gravitational force exerted by the Earth on the Sun is equal in magnitude but opposite in direction to the gravitational force exerted by the Sun on the Earth.

The Earth's gravitational force on the Sun is equal in magnitude but opposite in direction to the Sun's gravitational force on the Earth. The masses of the objects and the distance between them play a role in determining the strength of the gravitational force, and in this case, the forces are balanced and equal.

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Weight is the force experienced by an object due to gravity and is equal to the product of its mass and gravitational acceleration.

Weight is not equal to mass multiplied by gravitational field strength. Weight is actually the force experienced by an object due to gravity, and it is given by the equation:

Weight = mass * gravitational acceleration

The gravitational acceleration is denoted by "g" and represents the acceleration due to gravity at a particular location. It is a constant value and does not depend on the mass of the object. On the surface of the Earth, the average value of gravitational acceleration is approximately 9.8 m/s^2.

So, the correct equation for weight is:

Weight = mass * gravitational acceleration

The reason weight is equal to the product of mass and gravitational acceleration is due to Newton's second law of motion. According to this law, the force acting on an object is equal to the product of its mass and acceleration. In the case of weight, the force acting on an object is the gravitational force, which is proportional to its mass (through the equation F = ma) and the gravitational acceleration.

Therefore, It's important to note that mass and gravitational field strength are not the same thing. Mass is a property of matter that measures the amount of material in an object, while gravitational field strength (or gravitational acceleration) is a measure of the intensity of the gravitational field at a specific location.

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The acceleration due to gravity on the Moon is approximately 1.622 m/s^2.The acceleration due to gravity on the Moon can be calculated using Newton's law of universal gravitation. The formula is given by:

a = G * (M / r^2)

Where:
a = acceleration due to gravity
G = gravitational constant (approximately 6.67430 x 10^-11 m^3/kg/s^2)
M = mass of the Moon
r = radius of the Moon

Given the mass of the Moon (M = 7.35 x 10^22 kg) and the radius of the Moon (r = 1.74 x 10^6 m), we can substitute these values into the formula:

a = (6.67430 x 10^-11 m^3/kg/s^2) * (7.35 x 10^22 kg) / (1.74 x 10^6 m)^2

Simplifying the equation:

a = (6.67430 x 10^-11 m^3/kg/s^2) * (7.35 x 10^22 kg) / (3.0276 x 10^12 m^2)

a ≈ 1.622 m/s^2

Therefore, the acceleration due to gravity on the Moon is approximately 1.622 m/s^2.

To calculate the acceleration due to gravity on the Moon, we used Newton's law of universal gravitation, which relates the mass and distance between two objects to the gravitational force between them. By rearranging the formula and substituting the given values of the Moon's mass and radius, we obtained the acceleration due to gravity.

The acceleration due to gravity on the Moon is significantly lower than that on Earth. While Earth's gravity is approximately 9.8 m/s^2, the Moon's gravity is only about 1.622 m/s^2. This reduced gravitational pull is due to the Moon's smaller mass and radius compared to Earth. The lower gravity on the Moon has various effects on its environment, such as the ability for objects to be lifted more easily and astronauts experiencing a sense of weightlessness.

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Answer:

C

Explanation:

When trash accumulates, astronauts manually squeeze it into trash bags, temporarily storing almost two metric tons of it for relatively short durations, and then send it away in a departing commercial supply vehicle, which either returns it to Earth or incinerates it during reentry through the atmosphere.

a)Therefore, it will take 3.58 seconds for the stone to reach the bottom of the cliff. b)So, its speed just before hitting the ground will be 12 m/s, but in the downward direction. c) Therefore, the total distance traveled by the stone is 21.504 + 64.2564 = 85.76 meters.

a) The stone is thrown vertically upward with a speed of 12 m/s from the edge of a cliff 70 m high.

determine the time it will take for the stone to reach the bottom of the cliff, we can use the kinematic equation, which is as follows:

s = ut + 0.5at²

Where s is the distance covered, u is the initial velocity, t is the time taken, and a is the acceleration. Since the stone is thrown upwards, the acceleration is -9.8 m/s² (negative because it is acting in the opposite direction of motion).

Using the above equation, we can find out the time it will take for the stone to reach the bottom of the cliff.

We take s = 70 m, u = 12 m/s, and a = -9.8 m/s².

t = √(2s/a-u²/a²)

t = √(2 × 70/9.8 - 12²/9.8²)

t = √(14.29 - 1.4694)

t = √12.8206t = 3.58 seconds

Therefore, it will take 3.58 seconds for the stone to reach the bottom of the cliff.

b) Just before hitting the ground, the stone will have the same speed as it had initially when it was thrown upwards, but in the opposite direction. So, its speed just before hitting the ground will be 12 m/s, but in the downward direction.

c) To calculate the total distance traveled by the stone, we can use the formula:

s = ut + 0.5at²

Here, s is the total distance traveled, u is the initial velocity, t is the time taken to reach the maximum height, and a is the acceleration due to gravity. When the stone is thrown upwards, it comes to rest at its maximum height, which is given by:

h = u²/2gt

Where h is the maximum height attained by the stone.

Therefore, h = (12²/2 × 9.8) = 7.35 meters

Now, to find the total distance traveled by the stone, we can use the above formula twice, once for the upward journey and once for the downward journey, and add the two distances.

s = ut + 0.5at²

s   = 12 × 3.58 + 0.5 × (-9.8) × 3.58²

s   = 21.504 - 64.2564

s = ut + 0.5at²

 s = 0 × t + 0.5 × (-9.8) × 3.58²

  s= 64.2564

Therefore, the total distance traveled by the stone is 21.504 + 64.2564 = 85.76 meters.

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Answer:

converge

plz mark me as brainliest.

Answer:

B. A hill 70ft tall.

Explanation:

Answer:

The answer is B. Spring tides, which are where there are very high tides and very low tides.

Explanation:

Spring tides occur when the sun and the moon are in alignment with Earth.

Please thank my answer and vote. (Maybe mark brainliest please)

The frequency of light with a wavelength of 788 nm can be calculated using the formula [tex]f = c/\lambda[/tex], where f represents frequency, c is the speed of light and [tex]\lambda[/tex] is the wavelength. In this case, the refractive index of light is given as 1.33.

To calculate the frequency, we first need to determine the speed of light in the given medium. The speed of light in a medium is related to the speed of light in a vacuum (c) by the equation v = c/n, where v is the speed of light in the medium and n is the refractive index of the medium. Substituting the given refractive index (n = 1.33) into the equation, we find that the speed of light in the medium is approximately [tex]2.26 * 10^8 m/s[/tex].

Next, we can use the formula for frequency to calculate the frequency of light: [tex]f = c/\lambda[/tex]. Substituting the values of c and [tex]\lambda[/tex], we get [tex]f = (2.26 * 10^8 m/s) / (788 *10^-^9 m)[/tex]. Calculating this expression, we find that the frequency of light with a wavelength of 788 nm in a medium with a refractive index of 1.33 is approximately [tex]2.87 * 10^1^4 Hz[/tex].

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Part A: The angular magnification when the object is at the focal point is 1.

Part B: The smallest distance the object can be from the lens is 6.00 cm.

Part A:

To find the angular magnification (M) when the object is at the focal point of a simple magnifier, we can use the formula

M = 1 + (D / f)

Where D is the least distance of distinct vision, which is typically taken as 25 cm for a normal eye, and f is the focal length of the lens.

In this case, the object is at the focal point, which means D becomes infinite since the eye is focused on the object at infinity. Plugging in the values, we have

M = 1 + (infinity / 6.00 cm) = 1 + 0 = 1

Therefore, the angular magnification when the object is at the focal point is 1.

Part B:

To determine the closest distance the object can be brought to the lens when it is viewed by the eye at infinity, we can use the formula

1 / (focal length) = 1 / (object distance) + 1 / (image distance)

Since the image distance is assumed to be at infinity, we can substitute ∞ for the image distance. Rearranging the equation, we get:

1 / (object distance) = 0 + 1 / (focal length)

1 / (object distance) = 1 / (6.00 cm)

Simplifying, we find

(object distance) = 6.00 cm

Therefore, the smallest distance the object can be from the lens is 6.00 cm.

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The lossy medium described is a good conductor. The values for the attenuation constant (α) and phase constant (β) can be calculated using the provided formulas, considering the appropriate approximations.

Explanation and calculation: To determine whether the lossy medium is a low-loss dielectric, a good conductor, or neither, we can compare the conductivity (σ) of the medium to the frequency (f) of the wave. In this case, the conductivity is 5 S/m and the frequency is 1000 Hz.

If the conductivity is much larger than the product of the frequency and the permittivity of free space (σ >> ωε₀), the medium is considered a good conductor. If the conductivity is much smaller than the product of the frequency and the permittivity of free space (σ << ωε₀), the medium is considered a low-loss dielectric.

In this case, since the conductivity (5 S/m) is significantly larger than the product of the frequency (1000 Hz) and the permittivity of free space, we can conclude that the lossy medium is a good conductor.

To calculate the attenuation constant (α) and phase constant (β), we can use the formulas:

α = √(ωμ₀σ/2)

β = √(ω²μ₀ε₀ - α²)

where ω = 2πf is the angular frequency, μ₀ is the permeability of free space, and ε₀ is the permittivity of free space.

Substituting the given values, ω = 2π(1000 Hz), μ₀ = 4π × 10^(-7) T·m/A, and ε₀ = 8.854 × 10^(-12) F/m, we can calculate α and β.

Using appropriate approximations, we can assume that ωμ₀σ is large and α ≈ √(ωμ₀σ/2) ≈ 1000 rad/m.

Substituting the values into the formula for β, we find:

β = √((2π(1000 Hz))²(4π × 10^(-7) T·m/A)(8.854 × 10^(-12) F/m) - (1000 rad/m)²)

Therefore, we can calculate the numerical values for α and β using the given formulas and approximations.

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Therefore, the total charge on the sphere is 0.040716 C or 40.716 mC (milli-coulombs).

The given information regarding the sphere is:

Radius of the sphere, r = 0.06 m, Charge per unit area on the surface of the sphere, σ = 0.9 mc/m² (milli-coulomb/meter²)

The total charge on a sphere can be calculated by multiplying the charge density (charge per unit area) with the total surface area of the sphere.

The total surface area of the sphere is given by:

A = 4πr².

On substituting the given values of r and σ, we get:

A = 4 × π × (0.06)² = 0.04524 m²

Charge on the sphere,

q = σ × A = 0.9 × 0.04524

q= 0.040716 C (coulombs).

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Answer: its motion  

Explanation: Potential energy is stored energy when an object is without motion, kinetic energy is the energy when a object is in motion.

Answer:

motion

Explanation:

edge 2021 btw miraculous is a great show :)

The magnetic field inside the solenoid is 0.0001454 T.

Use the formula for the magnetic field inside a solenoid:

B = μ₀ (NI) / L

Where:

B is the magnetic field,

μ₀ is the permeability of free space (4π × 10⁻⁷ T·m/A),

N is the number of turns of wire,

I is the current flowing through the wire, and

L is the length of the solenoid.

Given:

Length of the solenoid (L) = 28.0 cm = 0.28 m

Cross-sectional area of the solenoid (A) = 0.590 cm² = 0.590 × 10⁻⁴ m²

Number of turns of wire (N) = 405

Current flowing through the wire (I) = 80.0 A

Substituting the given values into the formulae:

B = (4π × 10⁻⁷ T·m/A)  (405 turns × 80.0 A) / 0.28 m

B = (4π × 10⁻⁷ T·m/A)  (32,400 turns·A) / 0.28 m

B = 4π × 10⁻⁷ × 32,400 / 0.28 T

B = 4π × 10⁻⁷ × 116,142.857 T

B = 1.454 × 10⁻⁴ T

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The electric motor will develop a torque of approximately 1.27 Nm when run at 2000 rpm.

To calculate the torque developed by the electric motor, we need to use the relationship between power, torque, and rotational speed (rpm). Power is given by the formula:

Power = Torque × Angular velocity

where Angular velocity = 2π × (rpm/60) (converted from rpm to rad/s).

Given that the motor consumes 8.00 kJ of electrical energy in 1.00 min, we can convert this energy to joules:

8.00 kJ = 8.00 × 10^3 J

Since one-third of the energy goes into heat and other forms of internal energy, two-thirds of the energy is converted to motor output. Therefore, the energy converted to motor output is:

(2/3) × 8.00 × 10^3 J = 16/3 × 10^3 J

≈ 5,333 J

Now, we can calculate the power:

Power = Energy / Time

Given that the time is 1.00 min = 60 s:

Power = (5,333 J) / (60 s)

≈ 88.9 W

To find the torque, we rearrange the power formula:

Torque = Power / Angular velocity

Angular velocity = 2π × (2000 rpm / 60)

= (2π/60) × 2000 rad/s

Substituting the values into the formula:

Torque = (88.9 W) / [(2π/60) × 2000 rad/s]

Simplifying the equation:

Torque ≈ 1.27 Nm

Therefore, the electric motor will develop a torque of approximately 1.27 Nm when run at 2000 rpm.

When the electric motor is run at 2000 rpm, it will develop a torque of approximately 1.27 Nm.

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Two identical planets orbit a star in concentric circular orbits in the star's equatorial plane. The planet that is farther from the star must have a greater period than the planet that is closer to the star. The correct answer is option(b).

The period of the planet is directly proportional to the cube of its distance from the star. As a result, when planets are equidistant from a star, their periods will be equal.As a result, the planet that is farther from the star must have a greater period than the planet that is closer to the star.

A planet's gravitational mass is not influenced by the planet's distance from the star, so alternatives c and d can be ruled out. Similarly, the planet's universal gravitational constant is not affected by the planet's distance from the star, so option e can also be ruled out. The planet's period, on the other hand, is influenced by the distance from the star and the planet's mass. As a result, the option a can be ruled out.

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Force is push or pull....

thank you

Another bumblebee could detect the presence of the charged bumblebee from a distance of approximately 3.5 meters.

To determine the distance at which another bumblebee could detect the presence of the charged bumblebee, we can use Coulomb's law, which states that the electric force between two charges is directly proportional to the product of their charges and inversely proportional to the square of the distance between them.

The formula for the electric force between two charges is given by:

F = (k * q1 * q2) / r^2

where F is the electric force, k is the electrostatic constant (approximately 9 × 10^9 N·m^2/C^2), q1 and q2 are the charges, and r is the distance between the charges.

Given that the electric field detected by the bumblebee is 60 N/C, we can relate the electric field to the electric force using the equation:

E = F / q

where E is the electric field and q is the charge.

Rewriting the equation to solve for the electric force:

F = E * q

Substituting the given values:

F = (60 N/C) * (21 × 10^-12 C)

Simplifying:

F = 1.26 × 10^-9 N

Rearranging the Coulomb's law equation to solve for the distance:

r = sqrt((k * q1 * q2) / F)

Substituting the values into the equation:

r = sqrt((9 × 10^9 N·m^2/C^2 * (21 × 10^-12 C)^2) / (1.26 × 10^-9 N))

Simplifying:

r ≈ 3.5 meters

Therefore, another bumblebee could detect the presence of the charged bumblebee from a distance of approximately 3.5 meters.

Another bumblebee could detect the presence of the charged bumblebee from a distance of approximately 3.5 meters. This is based on the ability of bumblebees to sense electric fields and the known electric field strength and charge of the bumblebee in question.

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The second arrow reaches a height that is three times the height h reached by the first arrow.

The height reached by the second arrow relative to the first arrow's height can be determined by considering the conservation of mechanical energy.

When the first arrow is fired, it experiences initial potential energy due to its initial height and kinetic energy due to its initial velocity. As it reaches its maximum height h, its potential energy is at its maximum while its kinetic energy becomes zero.

The total mechanical energy (sum of potential and kinetic energy) is conserved throughout its flight.

Now, when the second arrow is fired, it is pulled back three times farther, so it has three times the initial potential energy compared to the first arrow. However, since both arrows are identical, they have the same mass and the same initial kinetic energy.

This means the second arrow has a higher total mechanical energy at the start.

When the second arrow reaches its maximum height, the total mechanical energy is again conserved, but this time its potential energy is three times higher than that of the first arrow. Therefore, the height reached by the second arrow is three times the height h of the first arrow.

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Answer:

d.) Newton's first law

Explanation:

This is also called the law of inertia, which means that an object in motion will not stop unless a force is acted upon it, and vice versa. Try this out with a piece of paper and a quarter. Pull the paper from under the quarter slightly quick, and the quarter will stay on the table. Hope i helped you.

The correct range for the temperature danger zone is 40-140°F.

The temperature danger zone refers to the range of temperatures in which bacteria can grow and multiply rapidly, posing a risk of foodborne illnesses. The correct range for the temperature danger zone is 40-140°F (4-60°C). Within this temperature range, bacteria can multiply quickly, reaching dangerous levels that can lead to food poisoning.

Temperatures below 40°F (4°C) can slow down bacterial growth, while temperatures above 140°F (60°C) can kill most bacteria. However, between 40-140°F, bacteria thrive and can double in number every 20 minutes, increasing the risk of foodborne illnesses.

Maintaining proper temperature control is crucial in food safety to prevent bacterial growth and minimize the risk of foodborne illnesses. This is particularly important for perishable foods such as meats, poultry, fish, dairy products, cooked rice, and cooked vegetables.

To ensure food safety, it is recommended to keep cold foods below 40°F (4°C) and hot foods above 140°F (60°C).

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Explanation:

inversely proportional

Answer:

directly proportional to force applied

A battery has am emf of 15 V and internal resistance of 1Ω. In the terminal potential difference less than, equal to or greater than 15V if the current in the battery is (a) Less from negative to positive terminal, Greater from positive to negative terminal Equal zero current.

The terminal potential difference ([tex]V_t[/tex]) in a battery can be calculated using the equation:

[tex]V_t[/tex] = emf - (I * r)

Where emf is the electromotive force of the battery, I is the current flowing through the battery, and r is the internal resistance of the battery.

Based on the given information, the battery has an emf of 15 V and an internal resistance of 1 Ω.

(i) When the current flows from the negative to the positive terminal:

[tex]V_t[/tex] = 15 - (I * 1)

Since the internal resistance is subtracted, the terminal potential difference will be less than 15V.

(ii) When the current flows from the positive to the negative terminal:

[tex]V_t[/tex] = 15 + (I * 1)

Since the internal resistance is added, the terminal potential difference will be greater than 15V.

(iii) When there is zero current flowing:

[tex]V_t[/tex] = 15 - (0 * 1)

Since the current is zero, the terminal potential difference will be equal to the emf, which is 15V.

Therefore, the correct option is: (a) Less, Greater, Equal

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Answer:

a

Explanation:

cause her hand is straight and she followed the direction it sould be correctly unless I am messing something

Part A:

In the reference frame of the rocket traveling in the positive x-direction at 1.1×10⁶ m/s, the components of the electric field are Eₓ = 6.6×10⁵ V/m and Eₓ = 0 V/m.

Part B:

In the reference frame of the rocket, the components of the magnetic field are Bₓ = 0 T and Bₓ = 0 T.

In Part A, to determine the components of the electric field in the rocket's reference frame, we need to account for the relativistic effects due to its velocity. Since the magnetic field is zero (b⃗ = 0⃗), we only need to consider the transformation of the electric field.

According to the relativistic transformation of electric fields, the electric field components perpendicular to the rocket's velocity remain unchanged, while the component parallel to the velocity is transformed.

In this case, the rocket is moving along the x-direction, so the perpendicular component, Eₓ, remains the same (6.0×10⁵ V/m). The parallel component, Eₓ, however, is affected by the Lorentz transformation and is given by Eₓ' = γ(Eₓ - vB_y), where γ is the Lorentz factor (γ = 1/√(1 - v²/c²)), v is the velocity of the rocket, and B_y is the magnetic field component perpendicular to both the x-axis and the rocket's velocity. Since B_y is zero, the transformed Eₓ' becomes 0 V/m.

In Part B, since the magnetic field is zero in the laboratory frame (b⃗ = 0⃗), it remains zero in the rocket's reference frame as well. The absence of a magnetic field in the rocket's frame is a consequence of the relative motion and the lack of any magnetic field in the laboratory frame.

Therefore, the components of the magnetic field, Bₓ and Bₓ, are both zero Tesla (0 T).

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Answer:

Because the two genes depend on each other, it is possible for someone to actually be a carrier of a dominant trait like brown eyes.  And if two blue eyed parents are carriers, then they can have a brown eyed child.  Genetics is much bkj

Explanation:

So all you light eyed parents with dark eyed kids, stop asking those paternity questions (unless you have other reasons to be suspicious).  Darker eyed kids are a real possibility that can now be explained with real genes.