Which of these would cause the most physical weathering?
A. sand being blown across a field.
B. The roots of a large tree.
C. A deep fast-moving river.
D. A shallow slow-moving river.

Answer: When there are two objects of different temps, the heat will always move from the higher temp to the lower temp. The energy will stop moving when there is equilibrium, when both objects are at the same temperatures.

The orbit of the Earth around the Sun is an elliptical, or oval-shaped, path that takes approximately 365.25 days to complete one full revolution.

The Earth's orbit is not perfectly circular, but rather slightly elongated, with the Sun located at one of the two foci of the ellipse.

During its orbit, the Earth's distance from the Sun varies, with the closest approach occurring in early January and the farthest distance occurring in early July. This variation in distance, along with the Earth's axial tilt, is responsible for the changing seasons on Earth.

The orbit of the Earth around the Sun is governed by the gravitational pull of the Sun, as well as the gravitational interactions between the Earth and other planets in the solar system. Despite the complex forces at play, the Earth's orbit remains remarkably stable over long periods of time.

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When an x-ray photon interacts with an atom, it can transfer a quantity of energy to an inner-shell electron, thereby dislodging it from its atomic orbit.

This energy transfer is known as the photoelectric effect, or photoelectric absorption. In order for this energy transfer to occur, the energy of the incoming x-ray photon must be equal to or greater than the binding energy of the electron to its orbit. The binding energy is the amount of energy required to remove an electron from its orbital. When the energy of the incoming x-ray photon is greater than the binding energy, the extra energy is released in the form of kinetic energy, which can be used to eject the electron from its orbit. This kinetic energy is then transferred to the atom and is used to excite or ionize other electrons. Once the electron has been ejected, it is then free to travel through the atom, leaving behind a positively charged atom, or ion. This process of photoelectric absorption is essential for x-ray imaging and spectroscopy, as it allows for the detection of inner-shell electrons.

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By measuring the height of the waveform in the time domain or the magnitude of the frequency components in the frequency domain, the amplitude (a) of the modulated waveform may be calculated.

A lower frequency message signal modulates a high-frequency carrier wave in amplitude modulation (AM), creating a modulated waveform. The carrier frequency (fc), the modulating frequency (fm), the modulation index (m), and the amplitude (a) may all be recognised in the frequency domain representation of an AM waveform (a).

The frequency in the middle of the band that the modulated waveform occupies is known as the carrier frequency (fc). Usually, this is the frequency domain representation's highest frequency component.

Finding the frequency difference between the sidebands of the modulated waveform will reveal the modulating frequency (fm). Namely, the modulating frequency is the product of the carrier frequency and the frequency, divided by two.

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The law of conservation of energy states that energy cannot be created or destroyed, but it can be changed from one form to another. Therefore, option c is the correct answer.

explain about law of conservation of energy ?

This law is one of the most fundamental principles of physics and states that the total amount of energy in a closed system remains constant over time, even though it may be transformed from one form to another (such as from potential to kinetic energy).

This law is based on numerous observations and experiments, and it has important implications for understanding the behavior of physical systems, including the ability to predict the outcomes of many physical processes.

The law of conservation of energy states that energy cannot be created or destroyed, but it can be changed from one form to another. Therefore, option c is the correct answer.

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The system in which the force of gravity on the ball an internal force to the system is Option B. system of the earth and the ball together.

Every object that has mass exerts a gravitational pull or force on every other mass. The strength of this pull depends on the millions of objects at play. graveness keeps the globes in route around the sun and the moon around the Earth. Hence, we define graveness as graveness is a force that attracts a body towards the centre of the earth or any other physical body having mass.

Originally, the direct instigation of the" ball earth" system is zero. So, according to the conservation of direct instigation, final direct instigation of the system must also be zero. therefore, if the ball moves overhead with some haste, the earth moves in downcast direction so as to conserve the instigation. Hence, the ball and the earth moves down from each other.

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Complete question:

A child holds a ball of mass m a distance h above the ground. In which system(s) is the force of gravity on the ball an internal force to the system? The system of just the ball.

The system of the earth and the ball together.

The system of the earth, the ball, and the child's hand.

The system of the earth, the ball, and the entire child.

The velocity of puck 1 after the collision is 15 m/s to the east.

The total momentum of the system before the collision is equal to the total momentum of the system after the collision.

The momentum of each puck can be calculated as:

p = m * v

where

p is the momentum (in kg*m/s)

m is the mass (in kg)

v is the velocity (in m/s)

The total momentum of the system before the collision is:

p_total_before = p1_before + p2_before = m1 * v1_before + m2 * v2_before

where subscripts 1 and 2 refer to pucks 1 and 2, respectively, and "before" refers to the velocity before the collision.

Substituting the given values, we get:

p_total_before = (0.1 kg) * (15 m/s) + (0.1 kg) * (-12 m/s) = 0.3 kg*m/s

The total momentum of the system after the collision is:

p_total_after = p1_after + p2_after = m1 * v1_after + m2 * v2_after

where "after" refers to the velocity after the collision. We are given that puck 2 is going 15 m/s to the east, so the velocity of puck 2 before the collision is -12 m/s to the west, and the change in velocity is:

Delta_v2 = v2_after - v2_before = 15 m/s - (-12 m/s) = 27 m/s

The momentum of puck 2 is conserved during the collision, so we have:

p2_before = p2_after

m2 * v2_before = m2 * v2_after

v2_after = v2_before = -12 m/s

Substituting the given values and solving for the velocity of puck 1 after the collision, we get:

p_total_after = m1 * v1_after + m2 * v2_after

0.3 kg*m/s = (0.1 kg) * v1_after + (0.1 kg) * (-12 m/s)

v1_after = (0.3 kgm/s + 1.2 kgm/s) / (0.1 kg)

v1_after = 15 m/s

Therefore, the velocity of puck 1 after the collision is 15 m/s to the east.

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The work done on the box by the static friction force as the accelerating truck moves a distance D to the left is negative.

The sum of the force applied to the body and the displacement of the body in the direction of that force is the work performed. A force performs positive work when the body is moved in the direction of the force applied, whereas a force performs negative work when the body is moved in the direction that is opposed to the force.

When the body's displacement in the direction of the force is zero, no work is done.

When the body is moved in the direction of the force, frictional force will provide positive work. An illustration will help you to understand this. Imagine two blocks are piled one on top of the other. There is a frictional force between the two blocks that prevents the two blocks from sliding if the bottom block begins to move slowly in one direction. This force pushes against the top block in the direction that the lower block is moving. Along with the bottom block, the higher block also travels in the direction of the frictional force. Friction therefore produces negative work in this situation.

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Integration scheme for one-dimensional heat conduction equation with second order spatial discretization can be unstable if the time step used in the scheme is too large. Specifically, the stability of the scheme depends on the value of the dimensionless Courant-Friedrichs-Lewy (CFL) number, which is given by αΔt/Δx^2, where α is the thermal diffusivity, Δt is the time step, and Δx is the grid spacing.

If CFL number is greater than a certain critical value the scheme will become numerically unstable and the solution will not converge to a physically realistic result. Therefore, when using an explicit time integration scheme for the heat conduction equation, it is important to choose a time step that satisfies the stability criterion.

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The final velocity of the two cars after they stick together is half the initial velocity of car a. In other words, their speed after the collision is half the initial speed of car a.

In an inelastic collision, the two objects stick together after the collision and move together with a common final velocity. In this case, the rolling railroad car a collides inelastically with railroad car b of the same mass, which is initially at rest.

Let's assume that the initial velocity of car a is v and the mass of each car is m. Since car b is initially at rest, its initial velocity is 0.

Using the law of conservation of momentum, we can write:

(momentum before collision) = (momentum after collision)

mv + 0 = (m + m)vf

where vf is the final velocity of the two cars after they stick together.

Simplifying the equation, we get:

vf = v/2

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The correct option is (a) i.e. sunlight reaching the tilted surface passes through more of Earth's atmosphere and much of the energy is absorbed before it can heat the surface.

When a section of the Earth's surface is tilted with respect to the sun, the sunlight passing through more of the Earth's atmosphere means that more of the energy from the sunlight is absorbed by the Earth's atmosphere, reducing the amount of energy that reaches the surface. This results in less heating of the surface compared to when the surface is facing the sun directly. This means that more of the energy in the sunlight is absorbed or scattered before it reaches the surface, so that the sunlight is less concentrated and does not heat the surface as much as it would if the surface were facing the sun directly. This is why the heating of a section of the Earth's surface is changed when it is tilted with respect to the sun.

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Question - How is the heating of a section of earth's surface changed when that surface is tilted with respect to the sun, instead of facing the sun directly? Multiple choice question.

(a) Sunlight reaching the tilted surface passes through more of earth's atmosphere and much of the energy is absorbed before it can heat the surface.

(b) Sunlight reaching the tilted surface is less concentrated, so the surface is not heated as much.

(c) The same amount of sunlight reaches the surface in either case so there is no difference in heating.

(d) Nonw of the above

Therefore, the maximum elevation the rocket reaches is approximately 1322.9 meters.

define elevation ?

Elevation refers to the vertical distance or height of a location or object above a reference point, such as sea level or ground level. It is often used in geography, surveying, and navigation to describe the height or altitude of a place or feature relative to its surroundings.

The maximum elevation the rocket reaches can be found by first calculating its velocity at the instant the motor turns off and then using the kinematic equation for displacement:

vf = vi + at

where vf is the final velocity, vi is the initial velocity (which is 0 m/s since the rocket starts from rest), a is the acceleration (20 m/s^2), and t is the time interval during which the acceleration is applied (4 s).

vf = 0 + 20 m/s^2 * 4 s = 80 m/s

Now, we can use the kinematic equation for displacement:

Δy = viΔt + 1/2at^2

where Δy is the displacement (or change in elevation), vi is the initial velocity, a is the acceleration (which is now the acceleration due to gravity, -9.8 m/s^2), and t is the time interval during which the object moves (which is the time from when the motor turns off until the object reaches its maximum elevation).

We know that the initial velocity is 80 m/s and that the displacement we are looking for is the maximum elevation. We can solve for t by setting vf to 0 and solving for t:

0 = 80 m/s + (-9.8 m/s^2) * t

t = 8.16 s

Now we can use this value of t to find the maximum elevation:

Δy = viΔt + 1/2at^2

Δy = (80 m/s)(8.16 s) + 1/2(-9.8 m/s^2)(8.16 s)^2

Δy = 1322.9 m

Therefore, the maximum elevation the rocket reaches is approximately 1322.9 meters.

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At 3.7s the horizontal distance that the stuntwoman ought to have put the foam mats that would cushion her fall (in relation to where the helicopter will be when she plummets) is 55.5m.

The distance between initial position of the woman and ground, y0 = 30.0 m

The horizontal velocity, vx = 15.0 m/s

The vertical velocity, vy = 10.0 m/s    

Using the kinematic equation, we have

y-[tex]y_{0}[/tex] = [tex]v_{y}[/tex]t - (1/2)g[tex]t^{2}[/tex]

-(30.0 m) = (10.0 m/s)t-(1/2)(9.8 [tex]m/s^{2} t^{2}[/tex]

(4.9)[tex]t^{2}[/tex]-(10.0)t-30.0 = 0

Solving the above quadratic equation, we get   t = 3.7 s

Therefore, the horizontal distance is   R = (vx)(t)

R =   (15.0 m/s)(3.69 s)

R =     = 55.5 m

Hence 55.5m is the horizontal distance and the image shows the graph  of her movements for x-, y-, vx-, and vy-time.

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The complete question is :

An image Stuntwoman descends from a helicopter that is 30.0 metres above the ground and travelling at a steady speed of 10.0 metres per second up and 15.0 metres per second down, all in the direction of the south. Neglect air resistance. (A) Where should the stuntwoman have set the foam mats to cushion her fall (in relation to where the helicopter will be when she drops)? (B) Create graphs of her movements for x-, y-, vx-, and vy-time.

If the electric field between the plates of a given air-filled capacitor is weakened by removing charge from the plates, the capacitance of that capacitor does not change.

Capacitance is the amount of charge that can be stored at a given voltage by an electrical component called a capacitor.

C=Q/V

The unit of capacitance is the Farad (F)

C = εA/d,

C is capacitance; ε is permittivity, a term for how well dielectric material stores an electric field; A is the parallel plate area; and d is the distance between the two conductive plates.

electric field between two parallel conducting plates depends on the electric potential or voltage of the two plates and the distance between the two plates. So, the electric field E=Vd E = V d where d is the distance between the two charged plates.

The force on the charge is the same no matter where the charge is located between the plates. This is because the electric field is uniform between the plates.

If the electric field between the plates of a given air-filled capacitor is weakened by removing charge from the plates, the capacitance of that capacitor does not change.

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The adiabatic compression of an ideal gas by a well-insulated piston occurs in a well-insulated chamber.

Adiabatic compression is a process in thermodynamics where a gas is compressed without any heat exchange with the environment. This means that the energy within the system remains constant, and the compression process increases the temperature and pressure of the gas. The temperature increase is a result of the conversion of work into internal energy.

Adiabatic compression is commonly used in internal combustion engines, where a mixture of fuel and air is compressed before ignition. This process increases the temperature and pressure of the mixture, which results in a more powerful combustion reaction.

The adiabatic compression process is described by the adiabatic equation, which relates the pressure, volume, and temperature of a gas under adiabatic conditions. This equation is used to calculate the thermodynamic properties of gases undergoing adiabatic processes.

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The system's natural frequency is 100rad/s.

The system's driving frequency is 10rad/s.

The natural frequency (ωn) of a system is the frequency at which the system will vibrate when the damping of the system is negligible and the system is disturbed from its equilibrium.The natural frequency of the system is given by the following equation:

[tex]\omega n[/tex] =[tex]\frac{2\pi}{T}[/tex]

where T is the period of oscillation.Hence, the system's inherent frequency is

[tex]\omega n = \frac{2\pi}{0.02\pi} \\= 100 rad/s[/tex]

The driving frequency (ωd) is the frequency at which an external force must be applied to the system in order to cause it to vibrate at the natural frequency of the system. The driving frequency of the system is given by the following equation:

[tex]\omega d = \frac{2\pi}{b}[/tex]

where Tb is the beat period. Therefore, the driving frequency of the system is

[tex]\omega d = \frac{2\pi}{0.2\pi} \\= 10 rad/s[/tex]

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The Van Allen belt is formed when High-energy particles from the Sun get trapped in Earth's magnetic field

The Van Allen belts are fields in outer space caused by Earth's magnetism. Magnetic striping is evidence of seafloor unfurling. The inner Van Allen belt is located usually between 6000 and 12 000 km (1 - 2 Earth radii [RE]) above Earth's surface, although it formed dips much near the South Atlantic Ocean. The outer radiation belt covers altitudes of roughly 25 000 to 45 000 km (4 to 7 RE).

Space scientist James Van Allen and his team at the University of Iowa were the first to locate the radiation belts, now also mention to as "The Van Allen Belts."

So we can conclude that The Van Allen belts were first discovered in 1958

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High-energy particles from the Sun get trapped in Earth's magnetic field.

option A.

The Van Allen belts are formed due to the interaction of charged particles from the solar wind with Earth's magnetic field. High-energy particles from the Sun get trapped in Earth's magnetic field, creating two belts of charged particles that encircle the planet.

The inner belt is made up of highly energetic protons, while the outer belt consists of energetic electrons. The charged particles are trapped by the magnetic field and follow magnetic field lines that are shaped like a torus (doughnut) around the Earth. This creates the Van Allen belts, which can extend several thousand kilometers into space and protect the Earth from the harmful effects of charged particles in the solar wind.

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Magnitude of the electric field at a point 1 m from the particle is 400 N/C.

The magnitude of the electric field produced by an isolated charged point particle follows an inverse-square law, meaning that the field strength decreases as the distance from the particle increases. The electric field strength E is proportional to the inverse of the square of the distance r from the particle:

[tex]E = k*1/r^2[/tex]

We can use this relationship to solve the problem. If the electric field strength at a point 2 m away from the particle is 100 N/C, then we can write:

[tex]100 N/C = kQ/2^2[/tex]

where k is the Coulomb constant and Q is the charge of the particle. Rearranging this equation to solve for Q, we get:

[tex]Q = (100 N/C)(2^2/k)[/tex]

At a point 1 m from the particle, the distance is halved, so the electric field strength will be:

[tex]E = kQ/1^2 = kQ[/tex]

Substituting the value of Q we just calculated, we get:

[tex]E = (100 N/C)(2^2/1^2k) = 400 N/C[/tex]

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The acceleration of a particle oscillating in a simple harmonic motion is always in the opposite direction to its velocity.

The velocity is at its greatest point and the acceleration (a) has zeroed out at the equilibrium position. Simple harmonic motion can be distinguished by its variable acceleration, which is always pointing in the direction of the equilibrium position and is inversely proportional to the displacement from the equilibrium position.

It is a specific kind of periodic motion with two extremes as its boundaries. Simple pendulum oscillation and the spring-mass system are two examples. The object will continue to oscillate around a fixed point between two extreme points.

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It takes 2.07 seconds for the car to cover a distance of 50.0 meters while accelerating at a uniform rate of 4.00 m/s^2.

We can use the kinematic equation to solve for the time required to cover the distance.

Here's the kinematic equation that we'll use:

d = vi * t + 1/2 * a * t^2

where:

d = distance traveled (in meters)

vi = initial velocity (in meters per second)

a = acceleration (in meters per second squared)

t = time (in seconds)

We want to solve for t, so we'll rearrange the equation to isolate t:

d = vi * t + 1/2 * a * t^2

50.0 m = 20.0 m/s * t + 1/2 * 4.00 m/s^2 * t^2

50.0 m = 20.0 m/s * t + 2.00 m/s^2 * t^2

Now we have a quadratic equation in the form of ax^2 + bx + c = 0, where:

a = 2.00 m/s^2

b = 20.0 m/s

c = -50.0 m

We can use the quadratic formula to solve for t:

t = (-b ± sqrt(b^2 - 4ac)) / 2a

Plugging in the values for a, b, and c, we get:

t = (-20.0 ± sqrt(20.0^2 - 4(2.00)(-50.0))) / 2(2.00)

t = (-20.0 ± sqrt(400 + 400)) / 4.00

t = (-20.0 ± 28.28) / 4.00

We have two solutions because of the ± sign. However, we know that time cannot be negative, so we'll take the positive solution:

t = (-20.0 + 28.28) / 4.00

t = 2.07 seconds

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After the switch is closed, the top plate  of the capacitor eventually becomes positively charged

When the switch is closed, what happens to the capacitor's charge?

It initially acts like a short-circuit because when the switch is first closed, the voltage across the capacitor, which we were assured was entirely discharged, is zero volts. The capacitor will eventually operate as an open circuit because the voltage of the capacitor will eventually equal the voltage of the battery.

An electrolytic capacitor with polarity will be labelled with the word "polarity" on it. A minus sign or a color stripe that runs the length of the capacitor is commonly used to indicate the capacitor's negative. The positive lead of the capacitor is longer than the negative lead.

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When two sources of waves with the same frequency are active, the path length difference must be equal to some whole multiple of the wavelength plus one half the wavelength for the waves to interfere destructively.

This is because in order for two waves to interfere destructively, they must be exactly out of phase with each other. When waves are out of phase, the crest of one wave lines up with the trough of the other, resulting in a cancellation of the waves. This occurs when the path length difference between the two waves is equal to an odd multiple of half wavelengths. For example, if the distance between the two sources is exactly one wavelength, then the waves will interfere constructively, resulting in a stronger wave. However, if the distance is increased to one and a half wavelengths, then the waves will interfere destructively, resulting in a weaker or canceled wave. This pattern repeats for all odd multiples of half wavelengths.

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a) Gravity: This is a long-range force and the agent of the force is the Earth. b) Air Resistance: This is a contact force and the agent of the force is the air molecules. c) Normal Force: This is a contact force and the agent of the force is the ground.

Air resistance, also known as drag, is a type of frictional force that acts upon objects when they move through a fluid, such as air or water. Air resistance occurs when the air molecules surrounding an object collide with the object’s surface, resulting in a resistive force that opposes the object’s motion. The magnitude of air resistance is dependent on the object’s shape, size, mass, speed, and altitude. Objects with a large surface area, such as parachutes, are more affected by air resistance than objects with a smaller surface area. Air resistance increases with an object’s speed and is stronger at higher altitudes, where the air is thinner. The effects of air resistance can be seen in everyday objects, such as an airplane or a car, and can be reduced by altering an object’s shape or by decreasing its speed.

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The power density is [tex]79.8 mW/m_2[/tex] if a 13 db gain antenna is used in place of the isotropic antenna.

The power density at a certain distance from an isotropic antenna is

= [tex]4 mW/m^2[/tex].

If this isotropic antenna is replaced with an antenna with 13 dB gain, then the power density at the same distance can be calculated as follows:

(1) Convert the gain in decibels (dB) to a linear scale:

[tex]Gain (linear scale) = 10^(^G^a^i^n^ (^d^B^)^/^1^0^)[/tex]

Reserving value of 13 dB:-

[tex]Gain (linear scale) = 10^(^1^3^/^1^0^) = 19.95[/tex]

(2) Use the following formula to calculate the power density of the antenna with gain:

Power density (with gain) = Power density (isotropic) * Gain (linear scale)

Reserving value of [tex]4 mW/m^2[/tex] and the value is:-

[tex]Power density (with gain) = 4 mW/m^2 * 19.95 = 79.8 mW/m^2[/tex]

Therefore, the power density at the same distance from an antenna with 13 dB gain is about [tex]79.8 mW/m^2[/tex].

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The equivalent capacitance of the three capacitors connected in series is approximately 1.74 micro-farads.

When capacitors are connected in series, their equivalent capacitance is given by:

1/C_eq = 1/C_1 + 1/C_2 + 1/C_3 + ...

where C_1, C_2, C_3, ... are the capacitances of the individual capacitors.

In this case, the three capacitors are connected in series, so we have:

1/C_eq = 1/5.0μF + 1/4.0μF + 1/8.0μF

To find the equivalent capacitance, we need to calculate the reciprocal of the sum of the reciprocals of the individual capacitances:

1/C_eq = (8 + 10 + 5)/40 μF

1/C_eq = 23/40 μF

C_eq = 40/23 μF

C_eq ≈ 1.74 μF

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The scale will read 290.6 N when the piece of copper is submerged in water.

The Force exerted by the mass of the copper piece is 320 N according the scale reading, We know that Weight = mg where m is the mass of the object and g is the acceleration due to gravity (9.8 m/s²). Therefore the mass of the copper piece is :

⇒Weight = mg

⇒m = Weight/g

⇒m = 320/9.8

⇒32.65 kg

Now , we know that density = mass/volume. The density of copper is 8830 kgm⁻³.

∴ Volume = mass/density

⇒ 32.65/8830

⇒ 0.003 m³

Now, Apparent weight = (Weight of the object) - (Weight of the volume of liquid displaced by the object)

Formula for buoyant force = (volume displaced) x (acceleration due to gravity) x (density of the liquid). Density of water is approximately 1000kg/m³

Therefore, Apparent weight of the copper piece :

⇒ Actual weight - Buoyant force

⇒ 320N - [1000 x 0.003 x 9.8]

⇒ 320N - 29.40N

⇒ 290.6 N

Therefore, the scale will read 290.6 N when the copper piece is submerged in water.

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Civilian los activities are often carried out on the9.15  mhz, 2.45 ghz, or 5.8ghz radio frequencies.

The oscillation rate of an alternating electric current or voltage, or of a magnetic, electric, or electromagnetic field, or of a mechanical system in the frequency range of roughly 20 kHz to around 300 GHz, is referred to as radio frequency (RF). This is about between the upper and lower limits of audio and infrared frequencies; these are the frequencies at which energy from an oscillating current may radiate into space as radio waves. Different sources offer different upper and lower frequency limitations.

The flow of electricity

Electric currents that oscillate at radio frequencies (RF currents) have particular features not shared by direct current or lower audio frequency alternating current, such as the 50 or 60 Hz current utilized in electrical power distribution. RF currents in conductors can radiate energy into space as electromagnetic waves (radio waves). This is the fundamental principle of radio technology.

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When the system is at rest, there are 2 forces acting on the 9 kg block.

An object experiences a push or pull as a result of interaction with another object. A force is exerted on each object when two of them come into contact. The newton, represented by the letter N, is the SI unit of force.

There are two different types of forces: contact forces and non-forces. A few examples of forces are nuclear force, gravitational force, frictional force, magnetic force, electrostatic force, spring force, and others.

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A nearsighted person has a near point of 12 cm and a far point of 40 cm With the corrective lens in place, the person's new near point will be 0.23 m or 23 cm.

1) Power of corrective lens for clear distant vision:

Near point = 12 cm

Far point = 40 cm

Lens Power = (1 ÷ 0.40) - (1 ÷ 0.12)

Lens Power = 2.5 - 8.33

Lens Power = -5.83 D

2) New near point with the corrective lens in place:

Lens Power = -5.83 Diopters

Far point = 40 cm

New near point = 1 ÷ (-5.83) + 0.40

New near point = -0.171 + 0.40

New near point = 0.23 m

So, with the corrective lens in place, the person's new near point will be 0.23 m or 23 cm.

To know more about the corrective lens:

https://brainly.com/question/32985197

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The energy of the sun originally came from the gravitational collapse of a nebula.

A nebula is a massive cloud of gas and dust known. When it gravitationally collapses, it causes the materials within it to heat up and, eventually, form a protostar. This protostar will continue to heat up and increase in pressure until nuclear fusion began in its core. This fusion of hydrogen atoms into helium releases a tremendous amount of energy, which is what powers the sun and gives it its heat and light.

So, the answer is the energy of the sun originally come from the collapse of a nebula.

Learn more about nuclear fusion at https://brainly.com/question/982293

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