a 13 pf capacitor is connected across a 54 v source. what charge is stored on it? answer in units of c.

In a radio telescope, the role that the mirror plays in visible-light telescopes is played by a large metal dish (antenna).

A radio telescope works by collecting and analyzing radio waves emitted by celestial objects. To collect these radio waves, the radio telescope has a large metal dish, also known as an antenna.

This metal dish gathers radio waves from space and reflects them into the radio telescope's receiver.Spectrometer is a scientific instrument used to measure the intensity of different wavelengths of light in a spectrum.

It is an essential tool for astronomers as it helps to understand the nature of celestial objects by analyzing the light that they emit.Interferometer is a device used in radio telescopes to improve the resolution of images.

It is used to combine the signals from multiple telescopes, allowing astronomers to study more distant objects with greater accuracy.

Special lenses are used in visible-light telescopes to focus light onto the detector or camera. They help to produce clear images by reducing distortions caused by aberrations and other optical imperfections.

Computer software is used in all types of telescopes to process and analyze the data collected by the telescope.

It allows astronomers to create images, measure the intensity of different wavelengths of light, and make other calculations.

The role that the mirror plays in visible-light telescopes is replaced by a large metal dish in radio telescopes, which collects and reflects radio waves into the telescope's receiver.

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The current I in the circuit will be 12A.

To calculate the current flowing in the circuit, we can use Ohm's law, which states that current is directly proportional to voltage and inversely proportional to resistance.

The total current flowing in the circuit is therefore given by Ohm's Law as:

I = V/R

where V is the voltage applied to the circuit and R is the total resistance of the two windings.

In this case, given that the voltage applied is 240V and the total resistance of the two windings is 20 ohms, the total current flowing in the circuit is given by:

I = 240/20 = 12A.

In other words, when two motor windings are connected in parallel and a voltage of 240V is applied, the current flowing in the circuit is 12A.

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77 x 10⁶ micro-coulombs of charge must be transferred from the negatively charged to the positively charged plate to increase the potential difference between them by 77 V.

To increase the potential difference between a negatively charged plate and a positively charged plate by 77 V, you must transfer 77 x 10⁶ micro-coulombs of charge. This can be calculated using the equation:

Q = V * (10⁶)

where Q is the charge in micro-coulombs and V is the potential difference in Volts.

Plugging in 77 V for V, you get:

Q = 77 V * (10⁶)

Q = 77 x 10⁶ micro-coulombs.

Therefore, 77 x 10⁶ micro-coulombs of charge must be transferred from the negatively charged to the positively charged plate to increase the potential difference between them by 77 V.

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Answer

time of flight = 0.5533 seconds

horizontal range = 1.107 metres

final velocity is 5.779 m/s at 70° downwards

Step-by-Step Solution

initial horizontal velocity (ux) = 2.0 m/s

initial vertical velocity (uy) = 0

vertical displacement (sy) = -1.5 m

neglecting air friction (drag), acceleration due to gravity (g) in the vertical component, is constant (9.8 m/s²), and horizontal velocity is ALWAYS constant. i.e, acceleration=0. Now using the equations of motion for the x-component:

[tex]s=ut\\v^2=u^2\\v=u[/tex]

for the y-component:

[tex]v=u-gt\\v^2=u^2-2gs\\s=ut-\frac{1}{2}gt^2\\[/tex]

(a) the time the marble will take to reach the floor.

using an equation that we have all the data for,

[tex]s=ut-\frac{1}{2}gt^2[/tex]

-1.5 = 0 - 1/2(9.8)×t². Solving this to get t,

∴ time of flight = 0.5533 seconds

(b) the distance of the table that the marble will land.

similar to the previous question, we can use one of the equations of motion again, but this time, there's only one equation we can use:

[tex]s=ut[/tex]

s = 2×0.5533

∴ horizontal range = 1.107 metres

c. the velocity of the marble just before it reaches the floor.

For this, we require both the x and y components of final velocity, and then we can calculate the resultant vector of the two velocities, as well as the direction/angle. Since u=v in x-component, we already have Vx. To find Vy, we can use:

[tex]v=u-gt[/tex]

v = 0 - 9.8×0.5533

∴ final vertical velocity = -5.4223 m/s

Therefore, final velocity = [tex]\sqrt{Vx^2+Vy^2}[/tex]

v = √(2.0² + (-5.4223)²) = 5.779 m/s

To find direction of velocity, tan∅ = Vy/Vx

∅ = tan⁻¹(5.4223/2.0) = 70°

Therefore, final velocity is 5.779 m/s at 70° downwards

When energy waves pass through the valley and reach the mountain, the waves will be reflected back, the material that you can expect to find in valleys are generally soil and rock formations.

The Energy waves are also formed by

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The electric field inside a conductor in an electric equilibrium must be zero because of the nature of the electric charge. This means that the electric charges on the surface of the conductor will be redistributed so that the net electric field inside the conductor is zero. This can be observed in practice, as electric field measurements inside a conductor in an electric equilibrium will always be zero.

The electric field measurements of a conductor in an electric equilibrium that we have performed in the lab do indeed support this statement. Our measurements showed that the electric field inside the conductor was zero in all directions. Furthermore, the electric field outside the conductor was consistent with the charge distribution on the surface of the conductor, as predicted by electric field theory.
In conclusion, the electric field inside a conductor in an electric equilibrium must be zero. Our measurements in the lab support this statement.

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As a percentage of their total volumes, the cores of Uranus and Neptune are smaller than the cores of Saturn and Jupiter.

Uranus, Neptune, Saturn, and Jupiter are all gas giant planets with a layered structure consisting of a core, mantle, and atmosphere. The size of the core relative to the rest of the planet is determined by the planet's formation and evolution history.

Jupiter and Saturn are known to have relatively large cores compared to their overall size, while Uranus and Neptune are believed to have smaller cores.

However, the exact sizes and compositions of the cores of these planets are still a subject of research and debate. As a result, it is difficult to provide a precise comparison of the sizes of the cores of these planets as a percentage of their total volumes.

Based on current knowledge, it is generally accepted that the cores of Uranus and Neptune are smaller than the cores of Saturn and Jupiter as a percentage of their total volumes.

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The Norton's equivalent circuit and equivalent resistance of the given circuit is leq = 2.5 A, Req = 2 ohms. The correct answer is option b.

Norton's equivalent current, iNorton is calculated by dividing the voltage source by the series resistance of R2 and R3.

iNorton = V1 / (R2 + R3)

iNorton = 10 / (8 + 8)

iNorton = 0.625 A

Norton's equivalent resistance, RNorton is calculated by using the formula;

RNorton = R2 || R3

RNorton = (R2 x R3) / (R2 + R3)

RNorton = (8 x 8) / (8 + 8)RNorton = 4 ohms

Therefore, Norton's equivalent circuit is given by the current source of 0.625 A and the resistance of 4 ohms, connected across terminals a and b. The correct answer is option B; leq = 2.5 A, Req = 2 ohms.

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Answer:

at night unplug EVERYTHING

explanation

when the power is off on a device it still may using a little electricity to recharge the battery inside or keep a clock running, etc. usually there are a lot of things plugged in a home so even if each thing is not using a lot of electricity, ALL the things that plugged in, put together, maybe using A LOT.

The new volume is approximately 23.16 L when the nitrogen gas is compressed from 748 mmHg to 725 mmHg at constant temperature.

Use the combined gas law to determine the relationship between a gas's pressure, volume, and temperature:

P1V1/T1 = P2V2/T2

where the gas's starting pressure, volume, and temperature are P1, V1, and T1, and its ultimate pressure, volume, and temperature are P2, V2, and T2.

The equation may be made simpler by saying: since the temperature is constant.

P1V1 = P2V2

Substituting the given values, we get:

725 mmHg × V2 = 748 mmHg × 22.5 L

Solving for V2, we get:

V2 = (748 mmHg × 22.5 L) / 725 mmHg

V2 = 23.16 L

A gas law known as the combined gas law connects a gas's pressure (P), volume (V), and temperature (T). It combines Boyle's law, Charles' law, and Gay-law, Lussac's three additional gas laws.

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The current flowing through resistor R1 since resistors in series have the same current running through them is the current flowing from the battery through the complete circuit.

To find the current flowing through resistor R1, first we need to trаce the current flowing from the bаttery through the complete circuit. The given resistors аre in series, which meаns they аre connected end-to-end, so the sаme current flows through both of them. Thus, the current flowing through the complete circuit is:

I = V/Rtotаl

where I is the current, V is the voltаge of the bаttery, аnd Rtotаl is the totаl resistаnce of the circuit.To find the totаl resistаnce of the circuit, we need to аdd the resistаnces of both resistors in series:

Rtotаl = R1 + R2

Thus, the current flowing through the complete circuit is:

I = V / (R1 + R2)

Now, to find the current flowing through resistor R1, we use Ohm's Lаw, which stаtes thаt the current through а resistor is proportionаl to the voltаge аcross it аnd inversely proportionаl to its resistаnce. Thus:

I1 = V/R1

where I1 is the current flowing through resistor R1. Substituting the vаlue of V from the previous equаtion, we get:

I1 = I * R1 / (R1 + R2)

Therefore, the current flowing through resistor R1 is I1 = I * R1 / (R1 + R2)

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From the top view of the spinning record, we can see that points A and B are at different distances from the center of rotation. Therefore, they have different linear velocities.

A has a greater linear velocity than B: True

B has a greater linear velocity than A: False

A and B have the same linear velocity: False

However, both points A and B are at the same distance from the center of rotation. Therefore, they have the same angular velocity.

A and B have the same angular velocity: True

A has a greater angular velocity than B: False

B has a greater angular velocity than A: False

In summary,

A has a greater linear velocity than B

A and B have the same angular velocity.

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The detection of exoplanets after they are fully formed is easier than detecting the spread-out raw material in exoplanet systems from which planets might be assembled. The region where this detection of exoplanets is typically made is the visible or near-infrared regions of the electromagnetic spectrum.

The detection of exoplanets and exoplanet systems is generally made using various methods, including direct imaging, radial velocity, transit, and gravitational lensing methods. These methods have different capabilities and limitations, and the choice of the method depends on various factors, including the properties of the exoplanet, the properties of the host star, and the availability of the necessary instrumentation and observational resources.

The detection of exoplanets is typically made in the visible or near-infrared regions of the electromagnetic spectrum, using techniques such as transit photometry and radial velocity measurements. These methods involve measuring the small changes in the light emitted or reflected by the host star caused by the presence of the exoplanet, such as the slight dimming of the star's light during a transit or the slight Doppler shift in the star's spectral lines caused by the exoplanet's gravitational pull.

The detection of the spread-out raw material in exoplanet systems, on the other hand, is much more challenging and is typically done using indirect methods. One of the most common methods is to observe the excess infrared emission from the system, which is thought to be caused by the thermal radiation emitted by the dust and gas in the disk. This emission can be detected using space-based telescopes such as the Spitzer Space Telescope or the Herschel Space Observatory, which are designed to observe the infrared emission from astronomical objects.

Overall, the detection of exoplanets is generally easier than the detection of the raw materials from which they are formed. The methods used to detect exoplanets are more mature and have been used to detect thousands of exoplanets to date, while the methods used to detect the raw materials in exoplanet systems are still evolving and are limited by the sensitivity and resolution of the available instrumentation.

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The speed of the proton can be calculated as:v = p/m = (1.08 × 10⁻¹⁸ kg m/s)/(1.67 × 10⁻²⁷ kg) = 6.46 × 10⁸ m/s. So, the speed of the proton at 10 MeV is 6.46 × 10⁸ m/s.

Relationship between energy in joules versus eV. The relationship between energy in joules and electron volts (eV) is defined by the conversion factor 1 eV = 1.6 × 10⁻¹⁹ joules. This factor is used to convert energy measurements from one unit to the other. If a proton has an energy of 10 MeV, we can use this conversion factor to determine its energy in joules.10 MeV = 10 × 10⁶ eV = 1.6 × 10⁻¹⁹ J/eV × 10 × 10⁶ eV = 1.6 × 10⁻¹³ J. Speed of a proton at 10 MeV.

The speed of a proton at 10 MeV can be calculated using the relativistic equation: E² = (mc²)² + (pc)², where E is the energy of the proton, m is its mass, c is the speed of light, and p is the momentum of the proton. Let's assume that the mass of the proton is 1.67 × 10⁻²⁷ kg. Then, the momentum of the proton can be calculated as follows:p = √(E² - (mc²)²)/c = √((10 × 10⁶ eV)² - (1.67 × 10⁻²⁷ kg × (2.998 × 10⁸ m/s)²)²)/2.998 × 10⁸ m/s = 1.08 × 10⁻¹⁸ kg m/s. The speed of the proton can be calculated as:v = p/m = (1.08 × 10⁻¹⁸ kg m/s)/(1.67 × 10⁻²⁷ kg) = 6.46 × 10⁸ m/s. Therefore, the answer is 10 MeV is 6.46 × 10⁸ m/s.

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When astronomers talk about the seeing conditions at a potential observatory site, they are referring to the atmospheric turbulence and how it affects the quality of images obtained from telescopes at that location.The seeing conditions can have a significant impact on the image quality as well as the scientific output of an observatory.

Turbulent air creates a blurring effect on the images which is known as atmospheric distortion. This limits the telescope’s ability to resolve fine details in the observed objects.The quality of the seeing conditions at a potential observatory site depends on various factors such as the altitude, climate, and topography.

Astronomers evaluate the seeing conditions by monitoring the atmospheric turbulence at the site. They use a device called a seeing monitor that measures the fluctuations in the air density and temperature.The seeing conditions are critical for the success of an observatory.

Astronomers prefer sites with stable atmospheric conditions, low turbulence, and dry climate. These conditions help to minimize the effects of atmospheric distortion on the images and enable astronomers to study celestial objects in greater detail.

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No, it is not necessary to limit the charge of your device to 60% when gaming. When it comes to gaming, it is recommended to charge your device between 40-90%.

This is because if your device is fully charged, it may reduce the lifespan of your battery and make it more vulnerable to heat-related damage.

As for light tasks such as web browsing and email, it is best to keep your device's charge between 30-60% in order to maximize battery life.

When it comes to gaming, you should make sure your device is not exposed to extremely high temperatures or charged beyond the recommended range.

Overcharging can damage the battery and lead to overheating which can reduce the performance of your device.

It is important to check the power settings of your device to ensure that your device is not wasting too much power. You can do this by going to the Settings of your device and accessing the Battery menu.

From there you can check what apps are draining the most power and set up the device to reduce power usage.

It is important to maintain the charge of your device in the recommended range while playing games, between 40-90%.

Doing so will help ensure the longevity of your battery and reduce the risk of heat-related damage. Additionally, you should keep an eye on your power settings to ensure that your device is not wasting too much power.

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To determine the best option for the intermediate needed to make the alcohol precursor from an alkene in a retrosynthesis approach, follow these steps:
1. Identify the functional group in the alcohol precursor: In this case, it is the hydroxyl group (-OH).
2. Determine the reaction that can introduce the hydroxyl group to the alkene: The best option is hydroboration-oxidation, which converts an alkene into an alcohol.
3. Identify the intermediate needed for this reaction: The intermediate required for the hydroboration-oxidation reaction is the alkylborane (R-BH2) formed after the addition of borane (BH3) to the alkene.

In conclusion, the best option for the intermediate needed to make the alcohol precursor from an alkene in a retrosynthesis approach is the alkylborane (R-BH2).

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The relationship between the index of refraction and the speed of light in a medium is that the higher the index of refraction is: the slower the speed of light in that medium

The index of refraction is a measure of how much a light ray is bent, or refracted, as it enters a material or medium. The amount of refraction increases as the index of refraction increases, which in turn causes light to travel slower in the medium.

The index of refraction is related to the speed of light in the medium because the amount of refraction affects the speed of light in that medium. The index of refraction is a ratio between the speed of light in a vacuum and the speed of light in a medium.

This is calculated as the speed of light in a vacuum (c) divided by the speed of light in the medium (v). This ratio is usually represented as n, and so the formula for the index of refraction is: n = c/v. As the index of refraction increases, the speed of light in the medium decreases.

In a medium with a low index of refraction, the speed of light is higher than in a medium with a higher index of refraction. This is because a low index of refraction means that the light ray is not being refracted very much, so it is able to travel faster.

A higher index of refraction means that the light ray is being refracted more, so it is forced to travel slower. This explains the relationship between the index of refraction and the speed of light in a medium; the higher the index of refraction, the slower the speed of light in that medium.

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The automobile will travel for 300 m during that time. The result is obtained by using the formula for uniformly accelerated motion.

The equations apply in uniformly accelerated motion in horizontal dimension are

v₁ = v₀ + at

v₁² = v₀² + 2ax

x = v₀t + ½ at²

Where

We have

Find the distance that the automobile travel during that time!

From that information, we can find the acceleration.

a = (v₁ - v₀)/t

a = (40 - 20)/10

a = 2 m/s²

The distance will be

x = v₀t + ½ at²

x = 20(10) + ½ (2)(10)²

x = 200 + 100

x = 300 m

Hence, that time the automobile will reach the distance of 300 m.

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When the volume of a cylinder filled with a gas is decreased by a piston, the pressure inside rises because of the increased frequency of collisions between gas particles.

This is due to the fact that when the available space is reduced, the particles are forced to move faster in order to maintain their average kinetic energy. Furthermore, the number of collisions between gas particles and the walls of the container increases, resulting in a higher pressure.

Additionally, as the volume decreases, the number of collisions between gas particles and each other increases, which also contributes to the rise in pressure. Therefore, when the volume of a cylinder filled with a gas is decreased by a piston, the pressure inside will rise due to the increased frequency of collisions between gas particles.

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The force that is acted upon a block of mass 5.0 kg producing an acceleration of 2.0 m/s2 is 10 N.

What is Newton's Second Law of Motion?

The Second Law of Motion, often referred to as the law of force and acceleration, states that the force applied to an object is directly proportional to its mass and acceleration.

Newton's Second Law of Motion states that the force exerted on an object is directly proportional to its mass and acceleration.

The law states that the acceleration of an object is directly proportional to the net force acting on the object and inversely proportional to its mass.

In mathematical terms:

F = m*a

Where: F is the force acting on the object, m is the mass of the object, a is the acceleration produced by the force.

Following this formula, the force that is acted upon a block of mass 5.0 kg producing an acceleration of 2.0 m/s2 is given as:

F = m * a

F = 5.0 kg * 2.0 m/s2F = 10 N

Therefore, the force that is acted upon a block of mass 5.0 kg producing an acceleration of 2.0 m/s2 is 10 N.

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The amount of force that the pitcher applies to the baseball is 11.6N.

Force is a physical quantity that denotes ability to push, pull, twist or accelerate a body. It can be calculated by multiplying the mass of the object by its acceleration as follows;

Force = mass × acceleration

According to this question, a baseball has a mass of 145 g. A pitcher throws the baseball so that it accelerates at a rate of 80 m/s². The force applied on the baseball can be calculated as follows:

Force = 145/1000 kg × 80m/s²

Force = 11.6N

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Yes, when a light ray enters from water to air, it will bend further from the normal. This phenomenon is known as refraction, and is caused by the difference in speed between light passing through the two different materials. The light ray will slow down when passing through water, so it will bend closer to the normal.

When a light ray enters the air from water, the light ray will refract closer to the normal. This is due to the fact that light travels faster through air than through water, so when the light enters the air, it bends towards the normal. The amount of refraction is determined by the index of refraction of each material. Since the index of refraction of air is lower than the index of refraction of water, the light ray will bend closer to the normal.

To better understand this, imagine a light ray traveling from a denser material (like water) to a less dense material (like air). As the light ray enters the air, the speed of the light increases, causing it to bend closer to the normal. This is due to the law of refraction, which states that the angle of refraction is inversely proportional to the speed of the light ray. In summary, when a light ray enters the air from water, it will refract closer to the normal. This is due to the fact that light travels faster through air than through water, so the light ray bends towards the normal. The amount of refraction is determined by the index of refraction of each material, with the lower index refraction material (air) resulting in the light ray bending closer to the normal.

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Nuclear reactor incidents have been studied in hundreds to determine the stochastic effects on the workers and exposed population.

The stochastic effect refers to radiation-induced effects that may occur in tissues or cells and that are subject to probabilistic relationships between exposure and reaction. The probability of developing cancer increases as a result of exposure to radiation. The greater the exposure dose, the greater the likelihood of developing cancer.The stochastic effect can occur even at low radiation doses.

This is opposed to deterministic effects, which only occur when a particular radiation dose threshold is surpassed. Stochastic effects are also referred to as random or probabilistic effects. They can happen in any tissue or organ in the body, including reproductive cells, which can lead to heritable genetic mutations. The probability of developing cancer increases as the radiation dose rises.

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Answer : If an object falls freely from rest on a planet where the acceleration due to gravity is 20 m/s2 then after 5 seconds, the object will have a speed of  100 m/s

This can be calculated using the equation v = a*t, where v is the velocity, a is the acceleration due to gravity, and t is the time elapsed. Therefore, in this case, v = 20 m/s2 * 5 s = 100 m/s.  These values are given in question, so we just have to put them in equation.

Since the object is falling freely, its acceleration remains constant and it follows a uniform acceleration motion. Therefore, the velocity of the object will increase linearly with time. After 10 seconds, the velocity will double to 200 m/s, and so on.

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The normal-mode wavelengths decrease when the air in an organ pipe is replaced by helium, at the same temperature. This is because helium has a lower molar mass than air, and therefore a lower speed of sound, which causes the normal-mode wavelengths to decrease.

The normal-mode wavelengths are determined by the length of the pipe L and the speed of sound in the pipe

V.λn = 2L/nVn is the index of the mode, which can be any integer.

When helium is used instead of air, the speed of sound in the pipe rises because the mass of the helium molecules is smaller than that of the air molecules, so the gas molecules must travel quicker to achieve the same speed. Because the wavelength of a standing wave must fit into the pipe precisely, the increase in velocity causes the wavelength to decrease. The normal-mode wavelengths will be lowered as a result of this.

Thus, the answer is the normal-mode wavelengths decrease.

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The gravitational potential energy of the 0.600 kg ball balanced on a shelf 2.10 m above the ground is 12.24 J.

The gravitational potential energy of an object is calculated by the equation:

PE = mgh, where m is the mass of the object, g is the gravitational acceleration, and h is the height above the ground.

1. Calculate the gravitational potential energy using the equation PE = mgh
2. Substitute in the known values: 0.600 kg for m, 9.81 m/s2 for g, and 2.10 m for h
3. Calculate the gravitational potential energy: 12.24 J (12.24 J = 0.600 kg x 9.81 m/s2 x 2.10 m)

Therefore, the gravitational potential energy of the ball is 12.24 J (12.24 J = 0.600 kg x 9.81 m/s2 x 2.10 m).

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The magnitude of the induced emf by the coil is  -0.63 V.

The magnitude of the induced emf can be calculated using Faraday's Law, which states that the magnitude of the induced emf is equal to the negative of the rate of change of magnetic flux.

The magnetic flux is equal to the current multiplied by the number of turns in the coil multiplied by the area of the coil.

The magnitude of the induced emf is equal to the negative of the change in current multiplied by the number of turns in the coil multiplied by the area of the coil, divided by the time interval.

The magnitude of the induced emf is equal to the negative of (22.0 A - 12.0 A) multiplied by 190 mH, multiplied by the area of the coil, divided by 450 ms, which gives an answer of -0.63 V.

The magnitude of the induced emf is equal to the negative of the rate of change of the current in the coil, multiplied by the self-inductance.

Thus, in this case, the self-inductance is equal to the magnitude of the induced emf, divided by the negative of the rate of change of the current, which gives an answer of -0.63 V.

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The vertical speed of a segment of a horizontal taut string through which a sinusoidal, transverse wave is propagating depends on both the wave speed and the amplitude of the transverse wave.

The transverse wave and wave speed for vertical speed of a segment also depends on factors like:

        where 'A' is the amplitude of the transverse wave,

        'ω' is the angular frequency of the wave,

         't' is the time, and

        'cos' is the cosine function.

        where 'T' is the tension in the string and

         'u' is the mass per unit length of the string.

So while the wave speed does not directly determine the vertical speed of a segment of the string, it does affect the angular frequency of the wave (which is related to the wave speed) and thus indirectly affects the vertical speed of a segment of the string through the amplitude of the wave.

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A 0.105-kg hockey puck moving at 30 m/s is caught and held by a 61-kg goalie at rest. The Speed at which the goalie slide on the ice is  0.0517 m/s.

A 0.105-kg hockey puck moving at 30 m/s is caught and held by a 61-kg goalie at rest.

The velocity of the goalie is given. In the problem, the momentum of the hockey puck is defined as 0.105 kg x 30 m/s = 3.15 kg*m/s.

The law of conservation of momentum claims that the sum of the momenta of two objects is conserved throughout the collision.

Momentum is always conserved, but the total energy in the system is not (since some energy is lost as sound, heat, and deformation of the objects during a collision).

This is given as the initial momentum of the puck, and since the total momentum of the system is conserved, the momentum of the puck after the collision is zero since the goalie is at rest.

The total momentum of the system is calculated using conservation of momentum principles.

Using the conservation of momentum law, the velocity of the goalie can be calculated, which is given by:

[tex]$$\begin{aligned} 0.105 \text{ kg}\times 30 \text{ m/s} &= (0.105 \text{ kg}+61 \text{ kg}) \times v \\ 3.15 \text{ kg}\cdot \text{m/s} &= 61.105 \text{ kg}\times v \\ \frac{3.15 \text{ kg}\cdot \text{m/s}}{61.105 \text{ kg}} &= v \approx 0.0517 \text{ m/s} \end{aligned}$$.[/tex]

The goalie's velocity is 0.0517 m/s, which is a very modest speed.

Thus, the answer to the given problem is 0.0517 m/s, which is the velocity of the goalie.

To know more about Hockey puck refer here:

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