suppose you moved two objects farther apart. how would this affect the force of gravity between those objects?

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Answer 1

This implies that as the distance between two objects increases, the force of gravity between them decreases.

If you moved two objects farther apart, the force of gravity between those objects would decrease.What is gravity?Gravity is a fundamental force that is responsible for the attraction between any two masses, any two celestial bodies, or any particles that have mass. According to Newton's law of universal gravitation, the magnitude of gravitational force between two objects is proportional to the product of their masses and inversely proportional to the square of the distance between their centers.So, if you moved two objects farther apart, the distance between them would increase. According to the inverse square law, if the distance between the two objects increases, the gravitational force between them decreases.

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Describe how the wavelength and the frequency of a wave are related

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Electromagnetic waves always travel at the same speed (299,792 km per second). This is one of their defining characteristics. In the electromagnetic spectrum there are many different types of waves with varying frequencies and wavelengths. They are all related by one important equation: Any electromagnetic wave's frequency multiplied by its wavelength equals the speed of light.

a mass revolving around the sun in elliptical orbit changes its shape according to the distance from the sun.identify it

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The mass revolving around the sun in an elliptical orbit that changes its shape according to the distance from the sun is a planet.

The shape of a planet's elliptical trajectory in our solar system varies depending on how far away it is from the sun. A planet moves more quickly and has a more elliptical orbit the closest it is to the sun. A planet travels more slowly and has an elliptical orbit the further it is from the sun.

Celestial objects known as planets orbit stars in a nearly spherical form and are sufficiently massive to be free of other space debris. There are eight planets in our solar system: Mercury, Venus, Earth, Mars, Jupiter, Saturn, Uranus, and Neptune. These planets travel in elliptical paths around the Sun.

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It takes 5 J of work to compress a monatomic ideal gas in a well-insulated container initially at atmospheric pressure and room temperature (300K) from 16 cc to 3 cc. What is the final pressure of the gas in atm?

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We can solve this problem by using the First Law of Thermodynamics, which states that the change in internal energy of a system is equal to the heat added to the system minus the work done by the system:

ΔU = Q - W

Since the container is well-insulated, Q = 0 and therefore ΔU = -W. The change in internal energy is given by:

ΔU = (3/2)nRΔT

where n is the number of moles of gas, R is the gas constant, and ΔT is the change in temperature. Since the gas is monatomic, we can substitute n = N/NA, where N is the number of atoms and NA is Avogadro's number, and use R = kNA, where k is the Boltzmann constant. Then we have:

ΔU = (3/2)(N/NA)kΔT

The work done by the gas is given by:

W = PextΔV

where Pext is the external pressure and ΔV is the change in volume. Since the pressure is constant, we can substitute Pext = Patm, the atmospheric pressure. Then we have:

W = Patm(V2 - V1)

where V1 and V2 are the initial and final volumes, respectively. Substituting the given values, we have:

W = 5 J

V1 = 16 cc = 16×10^-6 m^3

V2 = 3 cc = 3×10^-6 m^3

ΔV = V2 - V1 = -13×10^-6 m^3 (negative because the gas is compressed)

Substituting into the work equation, we get:

5 J = (101325 Pa)(-13×10^-6 m^3)

P = -5/(101325×13×10^-6) atm

P ≈ 0.003 atm

This result is negative, which means that the gas has done work on the surroundings rather than the other way around. This is because we have compressed the gas by doing work on it, and the gas has then expanded against the walls of the container, doing work on the surroundings. To get the final pressure of the gas, we need to add the atmospheric pressure to the pressure change caused by the compression:

Pf = Patm - ΔP = Patm - W/V2 = 1 - 5/(3×10^6) atm

Pf ≈ 0.9983 atm

Therefore, the final pressure of the gas is 0.9983 atm.

the technique used to determine which forces could act for a proposed change and which forces could act against it is referred to as .

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The technique used to determine which forces could act for a proposed change and which forces could act against it is referred to as Force Field Analysis.

Force Field Analysis is a technique for identifying the forces that support or hinder a proposed change. This technique is used to identify the forces that may act for or against a proposed change. These forces are known as driving forces and restraining forces, respectively.

The driving forces are the forces that support the proposed change, while the restraining forces are the forces that hinder the proposed change. Force Field Analysis is a useful technique for analyzing complex problems and determining the factors that affect them.

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- two ice skaters stand facing each other at rest on a frozen pond. they push off against one another and the 48.0 kg skater acquires a speed of 0.725 m/s. if the other skater acquires a speed of 0.845 m/s, what is her mass?

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The mass of the second ice skater is 39.2 kg.

1. Since the ice skaters push off against each other, their actions result in equal and opposite forces according to Newton's Third Law of Motion.


2. From this law, we know that the total momentum before and after the push will be conserved.


3. Initial total momentum = Final total momentum


4. Before the push, both skaters are at rest, so their initial total momentum is 0.


5. After the push, the 48.0 kg skater has a velocity of 0.725 m/s, and the other skater has a velocity of 0.845 m/s in the opposite direction.


6. Calculate the final total momentum: (48.0 kg)(0.725 m/s) = (mass of second skater)(0.845 m/s)


7. Solve for the mass of the second skater: mass = (48.0 kg)(0.725 m/s) / (0.845 m/s) = 39.2 kg

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if 50 feet of number 12 copper wire has a resistance of 1.2 ohms, what length of number 12 copper would have a resistance of 12 ohms?

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A length of 3024.6 feet of number 12 copper wire would have a resistance of 12 ohms.

To determine the length of number 12 copper wire that would have a resistance of 12 ohms, we can use the formula for calculating resistance:

Resistance (R) = Resistivity (ρ) x Length (L) / Cross-sectional Area (A)

First, we need to calculate the resistivity of copper, which is 1.68 x 10^-8 Ωm. We also know that 50 feet of number 12 copper wire have a resistance of 1.2 ohms.

Using these values, we can solve for the cross-sectional area:

1.2 ohms = (1.68 x 10^-8 Ωm) x (50 feet / A)

A = 0.0000000635 m^2

Next, we can use the cross-sectional area to calculate the length of number 12 copper wire that would have a resistance of 12 ohms:

12 ohms = (1.68 x 10^-8 Ωm) x (L / 0.0000000635 m^2)

L = 3024.6 feet

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Determine the cross-sectional area of an aluminum wire if its resistance is 0.1 ohm and its mass is 54 grams.

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To determine the cross-sectional area of the aluminum wire, we need to use the following formula:

Resistance (R) = Resistivity (ρ) * Length (L) / Cross-sectional Area (A)

where ρ is the resistivity of the material (aluminum, in this case), L is the length of the wire, and A is its cross-sectional area.

We do not have the length of the wire, but we can use the mass of the wire to find it. The density of aluminum is 2.7 g/cm^3, so the volume of the wire is:

Volume = mass / density = 54 g / 2.7 g/cm^3 = 20 cm^3

Let's assume that the wire is a cylinder with length L and cross-sectional area A. Then the volume can also be expressed as:

Volume = L * A

Therefore, we can solve for the length of the wire:

L = Volume / A = 20 cm^3 / A

Substituting this into the resistance formula, we get:

0.1 ohm = (2.65 x 10^-8 ohm*m) * (20 cm^3 / A)

where the resistivity of aluminum is 2.65 x 10^-8 ohm*m.

Solving for the cross-sectional area, we get:

A = (2.65 x 10^-8 ohm*m) * (20 cm^3) / 0.1 ohm

A = 5.3 x 10^-6 m^2

Therefore, the cross-sectional area of the aluminum wire is approximately 5.3 x 10^-6 square meters.

a person is on a motoboat that is capable of a maximum speed of 10 km/h in still water, and wishes to cross a 2 km wide river to a point directly across from the starting point. if the speed of the water in the river is 6 km/h, how much time is required for the crossing, assuming the boat is moving at its maximum speed?

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An individual on a motorboat with a top speed of 10 km/h wants to travel across a 2 km wide river to a location that is exactly opposite the beginning spot. The time required for crossing the river is approximately 12.4 minutes.

To calculate the time required for crossing the river, we can use the formula:

time = distance/speed

Let's call the speed of the boat in still water "v" and the speed of the river "u". The boat is moving at its maximum speed in still water, so its speed relative to the shore is also "v" km/h.

Now, to cross the river, the boat must move at an angle to the shore to compensate for the sideways drift caused by the river current. We can use trigonometry to determine the composition of the boat's speed in the direction perpendicular to the river, which is the distance that the boat covers while crossing the river.

The component of the boat's speed perpendicular to the river is given by:

v_perp = v * sin(theta)

where theta is the angle between the boat's path and the direction of the current, and sin(theta) is the sine of this angle.

Since the boat is moving at its maximum speed, v = 10 km/h, and the speed of the river is u = 6 km/h, we can use trigonometry to find the angle theta:

sin(theta) = u / v = 6 / 10 = 0.6

theta = sin^-1(0.6) = 36.87 degrees

Now we can find the distance that the boat covers while crossing the river:

distance = 2 km * sin(theta) = 1.2 km

The time required to cover this distance at the boat's maximum speed is:

time = distance / v_perp = 1.2 km / (10 km/h * sin(36.87)) = 0.206 hours

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Mrs. Jones is pulling a rope at 73 newtons, and a student
is pulling a rope at 47 newtons. What is the net force
(calculation).

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The net force on the object is 26 newtons. Some common types of forces include gravitational force, electromagnetic force, and the force of friction.

What is Force?

Force is a physical quantity that is used to describe the interaction between two objects. It is defined as any influence that causes an object to undergo a change in motion or direction. Force is typically measured in units of newtons (N), and it has both magnitude (strength) and direction. The direction of a force is typically described by its vector, which can point in any direction in three-dimensional space.

To calculate the net force, we need to add up the forces acting on the object.

In this case, the forces are being applied in opposite directions, so we need to subtract the smaller force from the larger force.

Net force = 73 N - 47 N = 26N

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resistance of a barge is to be determined from model test data. the model is constructed to a scale ratio of 1:13.5 and has length, beam, and draft of 7.00 m, 1.4 m, and 0.2 m, respectively. the test is to simulate performance of the prototype at 10 knots. what must the model speed be for the model and prototype to exhibit similar wave drag behavior? is the boundary layer on the prototype predominantly laminar or turbulent? does the model boundary layer become turbulent at the comparable point? if not, the model boundary layer could be artificially triggered to turbulent by placing a tripwire across the hull. where could this be placed? estimate the skin-friction drag on model and prototype.

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The model boundary layer does not become turbulent at the comparable point, as the Reynolds number for the model is much lower than that of the prototype which is 4,841,100.

To determine the speed of the model required for similar wave drag behavior, use the Froude scaling law:

Froude number (model) = Froude number (prototype)

Froude number (model) = Vmodel / (gLmodel)^0.5

Froude number (prototype) = Vprototype / (gLprototype)^0.5

where V is the velocity of the model or prototype, g is the acceleration due to gravity, and L is the length of the model or prototype.

We are given that the length of the model is 7.00 m, which corresponds to a prototype length of 7.00 * 13.5 = 94.5 m. The draft of the model is 0.2 m, which corresponds to a prototype draft of 0.2 * 13.5 = 2.7 m. We can assume that the beam scales proportionally, so the beam of the prototype is 1.4 * 13.5 = 18.9 m.

It is given that the prototype speed is 10 knots. Converting to SI units, this is 5.14 m/s.

It will plug in the numbers:

Vmodel / (gLmodel)^0.5 = Vprototype / (gLprototype)^0.5

Vmodel / (9.81 * 0.2)^0.5 = 5.14 / (9.81 * 2.7)^0.5

Vmodel = 2.14 m/s

Therefore, the model speed required for similar wave drag behavior is 2.14 m/s.

To determine the boundary layer characteristics, need to calculate the Reynolds number for both the model and the prototype:

Re = rho * V * L / mu

where rho is the fluid density, mu is the fluid viscosity, V is the velocity, and L is the characteristic length.

For the model, we can use the length, so Lmodel = 7.00 m. The density of water is approximately 1000 kg/m^3, and the viscosity is approximately 0.001 Pa s at 20°C.

Remodel = 1000 * 2.14 * 7.00 / 0.001 = 15,080,000

For the prototype, we can use the length as well, so L prototype = 94.5 m. Using the same values for the density and viscosity, may get

Reprototype = 1000 * 5.14 * 94.5 / 0.001 = 4,841,100

This is because the Reynolds number for the prototype is in the turbulent range (above 4000), while the Reynolds number for the model is in the laminar range (below 2300).

Therefore, the model boundary layer does not become turbulent at the comparable point, as the Reynolds number for the model may be much lower than that of the prototype.

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what is the relationship between magnetic force and the angle between the current carrying wire and the magnetic filed

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The magnetic force on a present-day-carrying twine is without delay proportional to the strength of the magnetic area and the contemporary within the twine and is also dependent on the angle among the route of the modern and the course of the magnetic field.

Magnetic force is a fundamental force that arises from the motion of charged particles. It is the force that causes magnets to attract or repel each other, and it is also responsible for the behavior of electrically charged particles in the presence of a magnetic field. The strength of the magnetic force depends on the strength of the magnetic field and the velocity and charge of the particles.

The route of the pressure is perpendicular to each the magnetic subject and the rate of the particle. Magnetic force plays an important role in many areas of physics, including electromagnetism, quantum mechanics, and particle physics. It is essential for understanding the behavior of electromagnetic waves, the functioning of electric motors and generators, and the behavior of charged particles in particle accelerators.

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a(n) is a circuit breaker with an intentional delay between the time when the fault or overload is sensed and the time when the cb operates.

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Answer:

The answer is time-delay circuit breaker.

An intentional delay between the time when the fault or overload is sensed and the time when the circuit breaker (CB) operates is present in time delay circuit breakers.

What is a circuit breaker?

A circuit breaker is an electrical safety device that is designed to protect an electrical circuit from damage caused by overload, short circuit, or ground fault. A circuit breaker will trip or disconnect the circuit from the power supply when it detects a fault. After resolving the problem, the circuit can be reconnected. The circuit breaker is a critical element of the electrical system. It protects electrical equipment, facilities, and human lives from electrical incidents. It acts as a switch that can be turned off if an electrical fault or damage is detected.

What is a time-delay circuit breaker?

A time-delay circuit breaker is a circuit breaker with an intentional delay between the time when the fault or overload is sensed and the time when the CB operates. It provides time-delay protection against short circuits and overloads. It is used when a motor or other inductive loads are present. In the absence of a time-delay circuit breaker, the breaker may trip immediately due to the high inrush current when an inductive load is switched on. This high current is much greater than the normal full-load current. A time-delay circuit breaker will delay the trip so that the inrush current has time to diminish to normal full-load current levels.

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A 0.5 mass is attached to a horizontal spring which undergoes SHM. The graph of EPE as a

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A 0.5 mass is attached to a horizontal spring which undergoes SHM. The graph of EPE as a function of position for the system is shown below.

As we know, the restoring force of a spring is given by F = -kx Where F is the restoring force of the spring k is the force constant of the spring x is the displacement from the equilibrium position hence, the force constant of the spring can be calculated as follows; We know that the potential energy (EPE) stored in a spring is given by EPE = (1/2)kx²From the given graph, we can see that at x = 0.1 m, EPE = 0.5 JNow substituting the given values in the above equation, we get0.5 = (1/2)k(0.1)²k = 100 J/mHence, the force constant of the spring is 100 J/m.
A 0.5 kg mass is attached to a horizontal spring undergoing Simple Harmonic Motion (SHM). The graph of Elastic Potential Energy (EPE) as a function of time will show a sinusoidal pattern, indicating the continuous transfer of energy between kinetic and potential energy during the motion of the mass and spring.

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in a single slit experiment, what effect on the central minimum in the diffraction pattern would result as the wavelength of the light is decreased?

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In a single-slit experiment, decreasing the wavelength of light would result in a narrower central minimum in the diffraction pattern.

The width of the central minimum in a single-slit diffraction pattern is inversely proportional to the wavelength of light. When the wavelength decreases, the angle at which the first minimum occurs increases according to the formula

θ = λ / a, where θ is the angle, λ is the wavelength, and a is the slit width.

As the angle increases, the width of the central minimum becomes narrower. This change in the diffraction pattern can be observed as the separation between adjacent bright fringes, or maxima, increases when the light wavelength is decreased.

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if the semi-circle has diameter 110 centimeters, and the bottom of the window is at a depth of 1.25 meters, find the hydrostatic force on the window.

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The hydrostatic force on the window with a semi-circle diameter of 110 centimeters and a depth of 1.25 meters is 42,665.625 N.

To find the hydrostatic force, follow these steps:

1. Convert diameter to radius: Radius (r) = Diameter / 2 = 110 cm / 2 = 55 cm = 0.55 m


2. Calculate the area of the semi-circle: Area (A) = (1/2)πr² = (1/2)π(0.55)² = 0.475625 m²


3. Calculate the pressure at the center of the window: Pressure (P) = ρgh, where ρ (rho) is the density of water (1000 kg/m³), g is the gravitational acceleration (9.81 m/s²), and h is the depth (1.25 m). P = 1000 × 9.81 × 1.25 = 12,262.5 N/m²


4. Multiply the pressure by the area to find the hydrostatic force: Force (F) = PA = 12,262.5 × 0.475625 = 42,665.625 N

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coil has resistance of 20 ohms and inductance of 0.35 h. compute its reactance and impedance to an alternating current of 25 hz

Answers

The reactance of the coil is 21.98 ohms and its impedance to an alternating current is 30.21 ohms

The reactance of a coil with inductance L and frequency f is given by the formula : [tex]X_L = 2\pi fL.[/tex]

Using this formula and the values given, the reactance of the coil is

[tex]X_L = 2\pi (25)(0.35) = 21.98 ohms.[/tex]

The impedance of a coil is given by the formula Z = sqrt(R^2 + X_L^2), where R is the resistance of the coil. Using the values given, the impedance of the coil is Z = sqrt(20^2 + 21.98^2) = 30.21 ohms.

In summary, the reactance of the coil is 21.98 ohms and its impedance to an alternating current of 25 Hz is 30.21 ohms.

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g a force of pounds is required to hold a spring stretched 0.6 feet beyond its natural length. how much work (in foot-pounds) is done in stretching the spring from its natural length to 1.1 feet beyond its natura

Answers

The work done in stretching the spring from its natural length to 1.1 feet beyond its natural length is 1.21F / 1.2 foot-pounds.

To solve this problem, we can use Hooke's Law and the work formula for a spring.
Step 1: Apply Hooke's Law
Hooke's Law states that F = kx, where F is the force applied, k is the spring constant, and x is the extension of the spring. We know F (force in pounds) is required to stretch the spring 0.6 feet, so we can write the equation as:

F = k * 0.6

Step 2: Find the spring constant k
Rearrange the equation to solve for k:
k = F / 0.6

Step 3: Calculate the work done in stretching the spring from its natural length to 1.1 feet
The work formula for a spring is W = (1/2) * k * x^2. We want to find the work done to stretch the spring to 1.1 feet, so we can write the equation as:
W = (1/2) * k * (1.1)^2
Step 4: Substitute the value of k from step 2
Replace k in the work equation with the expression we found in step 2:
W = (1/2) * (F / 0.6) * (1.1)^2
Step 5: Solve for W
Now, solve the equation to find the work done in stretching the spring:
W = (1/2) * (F / 0.6) * 1.21
W = 1.21F / 1.2
Therefore, the work done in stretching the spring from its natural length to 1.1 feet beyond its natural length is 1.21F / 1.2 foot-pounds.

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If a car travels 60 km/h, how long would it take the car to travel 300 km? Round to the nearest whole number.

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Answer:

To solve this problem, we can use the formula:

time = distance/speed

Distance is the distance traveled, and speed is the car's speed.

Substituting the given values, we get:

time = 300 km / 60 km/h = 5 hours

Therefore, it would take the car 5 hours to travel 300 km at 60 km/h. Rounded to the nearest whole number, the answer is 5 hours.

what are the dimensions (height and width) of the smallest plane mirror that you can buy so that you can still see all of yourself without having to move your head? 2. at what position should you mount the mirror on the wall?

Answers

To see your entire body in a plane mirror without moving your head, you need a mirror at least half your height. This is because the angle of incidence equals the angle of reflection, allowing you to see your full body in a mirror half your size.

1. Dimensions: Assuming an average human height of 5'6" (66 inches) for simplicity, the height of the smallest mirror should be 33 inches. The width should be wide enough to cover the widest part of your body, usually the shoulders, but it depends on the person's size. Let's say around 18-24 inches as an average width.

2. Position:
To ensure you can see your entire body, the mirror should be mounted vertically, centered at the midpoint of your height. Considering the average height of 5'6" (66 inches), the midpoint would be 33 inches above the floor. This will allow you to see your full body without moving your head.

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the period of a mass-spring oscillator is 2.76 s. every time the oscillator completes a full period, the amplitude of the oscillation gets reduced to 91.7 percent of the previous amplitude. how much time does it take for the amplitude to decay to 44.5 percent of its original initial value?

Answers

The required time taken to decay 44.5% is calculated to be 25.80 s.

It is given that the period of mass-spring oscillator is 2.76 s.

Amplitude is said to reduce by 91.7%.

Algorithmic decrement is given by,

a₁ = a₀ e^(-bt)

where,

b is constant

a₁ = 0.917 a₀

0.917 a₀ = a₀ e^(-b× 2.76)

e^(-b× 2.76) = 0.917

-b× 2.76 = log(0.917)

-b× 2.76 = -0.086

2.76 b = 0.086

b = 0.031

a₁ = a₀ (0.445)

a₀ (0.445) = a₀ e^(0.031 t)

e^(0.031 t) = (0.445)

0.031 t = log(0.445)

0.031 t = 0.8

t = 25.80 s

Thus, the time taken to decay 44.5% is 25.80 s.

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consider two future observatories in space: observatory a consists of a single 50-meter telescope. observatory b is an interferometer consisting of five 10-meter telescopes, spread out over a region 100 meters across. which observatory can detect dimmer stars, and which one can see more detail in its images? (assume all else is equal, such as quality of optics, types of instruments, and so on.)

Answers

Answer:

Explanation:

Observatory B, the interferometer consisting of five 10-meter telescopes, spread out over a region 100 meters across, would be better able to detect dimmer stars, while Observatory A, the single 50-meter telescope, would be better able to see more detail in its images.

The reason for this is that the ability to detect dimmer stars is largely determined by the amount of light-gathering power of the telescopes, which is proportional to their combined collecting area. In this case, the five telescopes in Observatory B would have a combined collecting area of approximately 785 square meters, while Observatory A would have a collecting area of only 1,963 square meters. As a result, Observatory B would be better able to detect dimmer stars due to its larger combined collecting area.

On the other hand, the ability to see more detail in images is largely determined by the resolving power of the telescopes, which is proportional to their aperture size. In this case, the single 50-meter telescope in Observatory A would have a larger aperture size than each of the individual 10-meter telescopes in Observatory B, which would allow it to see more detail in its images.

Overall, the choice between these two observatories would depend on the specific scientific goals and requirements of the observations being conducted.

Observatory B, the interferometer consisting of five 10-meter telescopes, would likely be able to detect dimmer stars, while Observatory A, the single 50-meter telescope, would likely be able to see more detail in its images.

The reason for this is that interferometers can combine the light from multiple telescopes to create a larger virtual telescope, which can improve the sensitivity and resolution of the observations. The larger the total aperture of the interferometer (i.e., the combined area of all the telescopes), the better its sensitivity to faint objects. Therefore, the five 10-meter telescopes in Observatory B, which have a combined aperture of 250 square meters, would likely be more sensitive to faint stars than the single 50-meter telescope in Observatory A, which has an aperture of only 1,963 square meters.

On the other hand, a larger aperture also improves the resolution of the telescope, allowing it to see more detail in its images. Therefore, the single 50-meter telescope in Observatory A would likely have better resolution and be able to see more fine details in its images than the interferometer in Observatory B.

Overall, the choice of observatory would depend on the specific scientific goals and priorities of the observations. If the goal is to detect fainter objects, then the interferometer in Observatory B would be the better choice. If the goal is to obtain high-resolution images, then the single 50-meter telescope in Observatory A would be the better choice.

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a sinusoidal wave can be described by a cosine function, which is negative just as often as positive. so why isn't the average power delivered by this wave zero?

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The average power delivered by a sinusoidal wave that is described by a cosine function is not zero because the negative portions of the wave still contribute to the total power delivered by the wave.

The power delivered by the negative portions of the wave is equal to the power delivered by the positive portions of the wave, and therefore the average power delivered by the wave is not zero. In a sinusoidal wave that is described by a cosine function, the power delivered by the wave is proportional to the square of the amplitude of the wave. The amplitude of the wave is the maximum displacement of the wave from its equilibrium position. The amplitude of the wave is always positive, even during the negative portions of the wave, which means that the power delivered by the negative portions of the wave is also positive. The average power delivered by the wave is calculated by taking the average of the power delivered by the wave over one cycle of the wave. Since the power delivered by the negative portions of the wave is equal to the power delivered by the positive portions of the wave, the average power delivered by the wave is not zero.

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Which example is used as evidence that the Universe begin with the big bang​

Answers

One of the strongest arguments for the Big Bang theory is the Cosmic Microwave Background Radiation (CMB). It is believed that the CMB, a faint electromagnetic glow that permeates the entire cosmos, is the radiation left over from the actual Big Bang.

Arno Penzias and Robert Wilson made the first finding of radiation in 1964; they were awarded the 1978 Nobel Prize in Physics for it. Strong proof from the CMB supports the theory that the universe originated with a Big Bang by showing that it was once much hotter and denser than it is today.

Big Bang theory.

A scientific hypothesis that explains the universe's beginning is the Big Bang theory. The universe originated as a hot, dense, and infinitely tiny point, known as a singularity, around 13.8 billion years ago, claims this hypothesis. The vast and intricate universe we see today was ultimately created as a result of the rapid expansion and cooling of this singularity over time.

Cosmic Microwave Background Radiation is one of the most important pieces of proof for the Big Bang hypothesis. (CMB). It is believed that the CMB, a form of electromagnetic radiation that permeates the entire universe, is the radiation that was left over after the Big Bang. Using a radio observatory, Penzias and Wilson made the initial discovery in 1964.

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So...Please? Help meh, I suck. Did I mention I said please? :D If you anwer my question ill love you forever PLEASEEE

Recently, cars have been prohibited from driving and parking on the shoreline of a local beach to protect it from pollution and erosion. Driving and parking on the beach is the main reason for the popularity of the beach in the area, so local businesses want the ban lifted. What social, economic, and political issues must be considered to make an informed decision about the new beach driving ban?


Describe the roles of light, carbon dioxide, and water in photosynthesis.


Explain the process of cellular respiration. What organisms undergo cellular respiration?


Describe the similarities and differences between aerobic respiration, and anaerobic respiration.


In a food chain, a rabbit eats grass, and the grass gets its energy from the sun. Describe the cycling of carbon and energy that occurs in this food chain.

Answers

Explanation & Answer

There are several social, economic, and political issues that must be considered when deciding whether or not to lift the ban on driving and parking on the shoreline of a local beach.

Social issues:

The impact of the ban on the local community, including those who regularly use the beach and those who live near it

The impact of the pollution and erosion on the beach and its surrounding environment

The impact of increased traffic and congestion on the beach and in the surrounding area

Economic issues:

The impact of the ban on local businesses that will rely on the popularity of the beach for revenue

The cost of implementing and enforcing the ban

The potential for loss of revenue for local businesses if the ban is lifted upwards

Political issues:

The opinions of local residents and businesses on the ban and its impact

The views of local and national politicians on the issue

The balance between economic development and environmental protection

The potential impact of the decision on the political popularity of those involved

I know this isn’t an exact answer but these are only the Political, Economic, and Social issues. So what I see in the question I am guessing you choose one or you use it all. This not be the answers though . . .

[tex]\left[\begin{array}{ccc}A&N&S\\U&&P\\A&B&V\end{array}\right][/tex] Tell me if you have any problems!

3-
4
Why is the distance traveled between seconds 0 and 1 less than the distance
traveled between seconds 2 and 3?
OA. Air resistance speeds the ball's fall as it approaches Earth.
OB. The ball's velocity decreases by 9.8 m/s for every second it falls.
OC. The ball's velocity increases by 9.8 m/s for every second it falls.
OD. Air resistance slows the ball's fall as it approaches Earth.

Answers

Answer:

The correct option is D. Air resistance slows the ball's fall as it approaches Earth.

Explanation:

while attempting to remove a stubborn lug nut from a wheel on your project car, you apply a force on the end of a long wrench with length 18.5 cm, such that your arm and the wrench form a 90 degree angle. the lug nut isn't budging, so you start to push harder until it finally comes loose when you push with 212 n of force. how much torque was required to loosen the lug nut?

Answers

The torque required to loosen the lug nut was approximately 39.22 Newton-meters.

The torque required to loosen the lug nut can be calculated as follows.Torque = Force x Distance

To calculate the torque required to loosen the lug nut, we need to calculate the distance between the point of application of force and the axis of rotation of the nut. This distance is the effective length of the wrench, which is the length of the wrench multiplied by the sine of the angle between the wrench and the force applied.

So we have:Effective length of wrench = 18.5 cm x sin 90°

Effective length of wrench = 18.5 cm

The torque required to loosen the lug nut is:T = F × D

Effective torque = 212 N × 0.185 m

Effective torque = 39.22 Nm

Therefore, the torque required to loosen the lug nut is 39.22 Nm.

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what type of reaction occurs when a cadle is burned

Answers

Answer:

Exothermic Reaction.

Explanation:

An exothermic reaction is a chemical reaction that releases energy in the form of light or heat. The burning of the candle is an exothermic reaction. Endothermic reactions - Heat is absorbed, like the Photosynthesis process.

when considering capacitors in series and in parallel, which values stay the same throughout the circuit? select all that are true.

Answers

When capacitors are connected in series or in parallel, the following values remain the same: Voltage across capacitors in parallel, Charge on capacitors in series. Both the options are true.

When capacitors are connected in parallel, they are connected to the same two points in the circuit, which means that they have the same potential difference or voltage across them. This is because the voltage across each capacitor is determined by the voltage of the power source that is connected to the circuit.

On the other hand, when capacitors are connected in series, they have the same charge on them. This is because in a series circuit, there is only one path for the current to flow through, which means that the same amount of charge has to pass through each capacitor.

The charge on a capacitor is directly proportional to the voltage across it, and since the voltage across capacitors in series is divided among them according to their capacitance, the charge on each capacitor is the same.

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The probable question may be:

when considering capacitors in series and in parallel, which values stay the same throughout the circuit? select all that are true. Voltage across capacitors in parallel, Charge on capacitors in series.

how the refraction of light in a mirage is distinct from the refraction of light at an interface like that between air and water

Answers

The refraction of light in a mirage is distinct from the refraction of light at an interface like that between air and water as follows: Refraction in a Mirage.

When light passes through the atmosphere, it slows down, bends, and refracts in the air. Refraction happens as the air temperature alters. The warmer the air, the more it refracts. In a mirage, hot air near the surface of the ground refracts light rays above it toward our eyes as if they were reflecting off a flat surface. This implies that a mirage is caused by the bending of light rays when they pass through hot air above a surface.

The light that passes through the air is refracted due to the difference in temperature in the air, resulting in an illusion of a shimmering body of water that appears to be on the ground. Refraction of Light at an Interface. When light moves from one medium to another, it refracts at the interface or the boundary between the two media. This can be seen, for example, when light passes through the air and into the water. When light enters the water from the air, it slows down, bends, and refracts.

The angle of refraction is always greater than the angle of incidence in such situations. This happens because light waves slow down as they enter the denser medium, causing them to bend. The angle at which light rays approach the interface is known as the angle of incidence. When light moves from one medium to another, its speed and wavelength alter, and this is known as refraction.

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a spring requires 5 j to stretch the spring from 8 cm to 12 cm, and an additional 4 j to stretch the spring from 12 cm to 14 cm. what is the natural length of the spring?

Answers

The natural length of the spring is 8 cm.

We can use the formula for the potential energy stored in a spring:

U = (1/2)kx^2

where U is the potential energy, k is the spring constant, and x is the displacement from the spring's natural length.

Let's first find the spring constant, k:

U = (1/2)kx^2

5 J = (1/2)k(0.04 m)^2

k = (2*5 J) / (0.04 m)^2

k = 625 N/m

Now, we can find the natural length of the spring, x0:

U = (1/2)kx^2

9 J = (1/2)(625 N/m)(x - 0.08 m)^2 (using x-0.08m since it has stretched 8cm)

4 J = (1/2)(625 N/m)(x - 0.12 m)^2 (using x-0.12m since it has stretched 12cm from natural length)

We have two equations and two unknowns (x and x0), so we can solve for x0:

9 J = (1/2)(625 N/m)(x - 0.08 m)^2

36 = (x - 0.08 m)^2

x = 2.0 x 0.08 m - 0.12 m or x= 0.04m or x=0.16m

Now we can check which one of these solutions makes sense based on the second equation:

4 J = (1/2)(625 N/m)(x - 0.12 m)^2

4 J = (1/2)(625 N/m)(0.04 m)^2 or 4 J = (1/2)(625 N/m)(0.16 m)^2

So we see that x = 0.16m is not a valid solution, as it would require more energy to stretch the spring from 12cm to 14cm than we have. Therefore, the natural length of the spring is:

x0 = 0.08 m.

So, the natural length of the spring is 8 cm.

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