what happens to the force between charges if one charge is doubled and the distance between them is doubled?

Answers

Answer 1

Answer: The force between the charges is reduced to half.

Explanation:

We know that

F = product of the charges/square of the distance between them

i.e. F = q1 q2 / r^2

If one charge is doubled and the distance is doubled then force can be written as

F' = 2q1q2/4r^2

F' = 1/2F

Therefore the force is reduced to half.


Related Questions

An airplane propeller is 1.97m in length (from tip to tip) with mass 128kg and is rotating at 2800rpm (rev/min) about an axis through its center. You can model the propeller as a slender rod.

What is its rotational kinetic energy?

Suppose that, due to weight constraints, you had to reduce the propeller's mass to 75.0% of its original mass, but you still needed to keep the same size and kinetic energy. What would its angular speed have to be, in rpm?

Answers

The new angular speed that would maintain the same kinetic energy with a reduced mass of 75% is approximately 346.43 rpm.

I' = (1/12) * 96 kg * (1.97 m)² = 16.63 kg m²

Setting the kinetic energies equal to each other, we have:

(1/2) * I * w² = (1/2) * I' * w'²

Solving for w', we get:

w' = w * √(I / I') = w * √(22.18 kg m² / 16.63 kg m²) = 1.18 * w

where w is the original angular speed and w' is the new angular speed.

Substituting w = 293.50 rad/s, we get:

w' = 1.18 * 293.50 rad/s = 346.43 rpm

Kinetic energy is a form of energy that an object possesses due to its motion. The amount of kinetic energy an object has depends on its mass and velocity, with the formula for kinetic energy being 1/2 * mass * velocity^2. This means that the greater the mass or velocity of an object, the greater its kinetic energy will be.

When an object is in motion, its kinetic energy can be transformed into other forms of energy, such as thermal energy or potential energy. For example, when a ball is thrown, its kinetic energy is transferred to the air molecules around it, creating heat, and to the ball's potential energy as it rises in the air. When the ball lands and comes to a stop, its kinetic energy is fully transformed into other forms of energy.

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when calculating someone's energy balance, which components of their lives do you need to know about?

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When calculating someone's energy balance, you need to know about their basal metabolic rate (BMR), their physical activity level, which is the energy expended during daily activities and exercise; and their dietary intake, which is the energy consumed through food and drink.

These three components contribute to the overall energy balance of an individual, and if they are in a state of positive energy balance (consuming more energy than they expend), they may gain weight, while a negative energy balance (expending more energy than they consume) can lead to weight loss. The Basal Metabolic rate is the energy the body uses at rest.

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lift the rlc circuit board above the bench. align the axes of coil and magnet, hold the magnet about one inch above the coil. click record and drop the magnet through the coil. observe the voltage peaks on the graph and compare to the voltage peaks of thrusted magnet? which method gave you greater voltage peaks? explain the results.

Answers

The experiment described involves testing the voltage peaks generated by dropping a magnet through an RLC circuit board with aligned coil and magnet axes. The voltage peaks are observed on a graph and compared to the voltage peaks generated by a thrusted magnet.

The RLC circuit board is designed to generate voltage peaks as the magnet passes through the coil. The height of the voltage peaks depends on various factors, such as the strength of the magnetic field, the distance between the magnet and coil, and the speed of the magnet's movement.

Comparing the voltage peaks generated by the dropped magnet and the thrusted magnet, it is likely that the method of dropping the magnet through the coil will generate greater voltage peaks. This is because the sudden movement of the magnet through the coil creates a stronger magnetic field, inducing a larger voltage peak.

In contrast, thrusting the magnet through the coil generates a more gradual increase in magnetic field strength, leading to smaller voltage peaks.

Overall, the results of this experiment demonstrate the importance of carefully controlling the movement of a magnet through an RLC circuit board to generate optimal voltage peaks.
In an RLC circuit, the voltage generated depends on the magnetic flux change through the coil. When you drop the magnet through the coil, the magnetic flux changes rapidly as the magnet approaches and moves away from the coil. This results in a larger induced voltage, seen as higher voltage peaks on the graph.

On the other hand, when you thrust the magnet, the magnetic flux change may not be as rapid, leading to smaller induced voltage peaks.

In general, the method that provides greater voltage peaks is the one with a faster magnetic flux change. In this case, dropping the magnet through the coil likely produced higher voltage peaks due to the rapid change in the magnetic field.

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a test has power 0.80 when μ = 3.5. state whether the following statements are true or false.

Answers

The statements are as follows:
1. If μ is increased to 4.0, the power of the test will increase.
2. If the power of the test is increased to 0.90, μ must be greater than 3.5.



1. True. The power of a test increases as the difference between the null hypothesis and the true population parameter (in this case, μ) increases. Therefore, if μ is increased from 3.5 to 4.0, the power of the test will increase as well.

2. False. The power of a test depends on several factors, including the sample size, the level of significance, and the effect size (i.e., the difference between the null hypothesis and the true population parameter). Therefore, it is possible to increase the power of the test without increasing μ. This could be done by increasing the sample size, decreasing the level of significance, or increasing the effect size through other means.

the first statement is true and the second statement is false.


The power of a test is the probability that the test correctly rejects the null hypothesis when the alternative hypothesis is true. In this case, the power of the test is given as 0.80 when the population mean (μ) is 3.5. This means that there is an 80% chance that the test will correctly reject the null hypothesis when the true population mean is 3.5.


The statement "A test has power 0.80 when μ = 3.5" is true, as it indicates the probability of correctly rejecting the null hypothesis when the true population mean is 3.5.

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how many grams of 235u must undergo fission to operate a 1000-mw power plant for one day? (b) if the density of 235u is 18.7 g/cm3, how large a sphere of235u could you make from this much uranium?

Answers

According to the question the radius of the sphere of 235U is 17.4cm

What is power?

Power is the ability to influence or control the behaviour of people, events or resources. It is the capacity to make decisions, take actions and accomplish goals. It can be seen as a form of energy that can be employed in both positive and negative ways. Power can be used to create positive change or to manipulate and oppress people.

A 1000-MW power plant requires 1.86e15 J of energy every day. This energy is provided by the fission of uranium-235, where the energy released per fission is around 200 MeV.
Therefore, to operate a 1000-MW power plant for one day, the amount of 235U needed is:
1.86e15 J / (200 MeV/fission) x (1 fission/235U) = 9.3e14 235U atoms
The mass of 9.3e14 235U atoms is:
9.3e14 atoms x 235 g/mol x (1 mol/6.02e23 atoms) = 8.1e7 g
This means that 8.1e7 g of 235U is needed to operate a 1000-MW power plant for one day.
To answer the second part of the question, if the density of 235U is 18.7 g/cm3, the sphere of 235U can be calculated using the formula:
Volume = (Mass / Density)
Therefore, the volume of the sphere of 235U is:
Volume = (8.1e7 g / 18.7 g/cm³) = 4.3e5 cm³
The radius of the sphere can then be calculated using the formula:
Radius = [tex](3 Volume / 4\pi)^{(1/3)[/tex]
Therefore, the radius of the sphere of 235U is:
Radius = [tex](3 \times 4.3e5 cm^3 / 4\pi)^{(1/3)} = 17.4 cm[/tex]

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what is the dynamic range of a 16bit sound, i.e. the power ratio in db of the loudest and most quiet signal? (1p)

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The dynamic range of a 16-bit sound is the power ratio in dB of the loudest and most quiet signal. In a 16-bit system, there are 2^16 (65,536) different possible amplitude levels. The dynamic range can be calculated using the formula:

The dynamic range of a 16bit sound is approximately 96dB. This is the power ratio in dB between the loudest and most quiet signal. To give a long answer, the dynamic range is the difference between the maximum and minimum amplitude that can be represented in a 16bit digital audio signal.

Therefore, the dynamic range can be calculated as 20*log10(2^16) = 96dB. It's important to note that this is an idealized calculation and that in reality, the dynamic range of a sound recording may be impacted by other factors such as noise floor and signal-to-noise ratio.

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describe an experiment to find the density of copper turnings using a densitybottleandkerosene
kerosene

Answers

The density of copper turnings is the ratio of the mass of copper turnings to the volume of the copper turnings.

What are the materials and experimental procedure?

The required materials are;

Copper turningsDensity bottle KeroseneBalance Graduated cylinder (for measuring volume)Stopwatch or timer

The experimental procedure are;

Clean and dry the density bottle thoroughly to ensure accurate measurements.Weigh the empty density bottle using the balance and record the mass as m₁.Fill a graduated cylinder with a known volume (V) of kerosene.Carefully pour the kerosene into the density bottle until it is completely filledWeigh the density bottle with the kerosene using the balance and record the mass as m₂Calculate the mass of kerosene by subtracting the mass of the empty density bottle m₁ from the mass of the density bottle with kerosene m₂.Using the known volume (V) of kerosene, calculate the density of kerosene.Remove the kerosene from the density bottle and thoroughly dry it.Add a known mass of copper turnings to the empty and dry density bottle.Weigh the density bottle with the copper turnings and record the mass as m₃Calculate the mass of copper turnings by subtracting the mass of the empty density bottle m₁ from the mass of the density bottle with copper turnings m₃.Calculate the volume of copper turnings.

Finally, calculate the density of copper turnings as;

density = mass / volume of copper turnings.

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a person views his face in a 20- cm focal length concave mirror. where should his face be in order to form an upright image that is magnified by a factor of 1.8?

Answers

The person's face should be placed at a distance of 36 cm from the concave mirror to form an upright image that is magnified by a factor of 1.8.

To form an upright image that is magnified by a factor of 1.8, the person's face should be placed at a distance of 36 cm from the concave mirror. This can be determined using the mirror formula:

1/f = 1/v + 1/u

where f is the focal length of the concave mirror, v is the distance of the image from the mirror, and u is the distance of the object from the mirror.

Given that f = -20 cm (negative because it is a concave mirror) and the magnification, M = v/u = 1.8, we can solve for u:

M = -v/u
1.8 = -v/u
u/v = -1/1.8
u = -v/1.8

Substituting this into the mirror formula:

1/-20 = 1/v + 1/(-v/1.8)

Solving for v, we get:

v = 36 cm

Therefore, the person's face should be placed at a distance of 36 cm from the concave mirror to form an upright image that is magnified by a factor of 1.8.

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The _____ population of stars contains both young and old stars, all of which are made up of about 2% heavy elements.

Answers

The chemical compositions and ages of these stars, astronomers can learn more about the conditions that prevailed during the first few billion years after the Big Bang.

The population of stars that fits this description is the "halo" population. The halo population of stars is found in the outer regions of galaxies, including our own Milky Way. Unlike the younger and more metal-rich stars in the galactic disk, halo stars are typically old and metal-poor, meaning that they contain relatively small amounts of elements heavier than helium.

One theory suggests that the halo population of stars may have formed early in the history of the universe, before heavy elements had been produced in significant quantities by supernovae and other stellar processes. Another possibility is that these stars formed from gas that had been expelled from galaxies during mergers and interactions with other galaxies.

Regardless of their origins, the halo population of stars provides valuable clues about the early universe and the processes that led to the formation of galaxies and other large structures.

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two capacitors initially uncharged are connected in series to a battery, as shown above. what is the charge on the top plate of c1?

Answers

Two capacitors, C1 and C2, are connected in series across a source of potential difference. With the potential source still connected, a dielectric is now inserted between the plates of capacitor C.

The charge on C₂ increases

What is a capacitor?

A capacitor is  described as a device that stores electrical energy in an electric field by virtue of accumulating electric charges on two close surfaces insulated from each other.

The dielectric material is utilized to expand the capacitance of the capacitor without changing its measurements and  comprises of polar molecules which are arbitrarily dispersed at first.

The net electric field between the plates of the capacitor diminishes and its capacitance increases because as dielectric is kept between the plates of a capacitor, these polar molecules polarize under the electric field between the plates of capacitor.

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#complete querstion:

Two capacitors, C1 and C2, are connected in series across a source of potential difference. With the potential source still connected, a dielectric is now inserted between the plates of capacitor C1. What happens to the charge on capacitor C2

A 12.0-uF capacitor is connected to an AC source with an rms voltage of 120 V and a frequency of 60.0 Hz. What is the rms current in the capacitor?

Answers

The rms current in a 12.0-uF capacitor connected to a 120 V, 60.0 Hz AC source is 54.03 mA.

To calculate the rms current (I_rms) in the capacitor, we first need to determine the capacitive reactance (X_C), which is given by the formula X_C = 1 / (2 * π * f * C), where f is the frequency (60.0 Hz) and C is the capacitance (12.0 uF).

1. Convert capacitance to Farads: C = 12.0 uF = 12.0 × 10⁻⁶ F
2. Calculate X_C: X_C = 1 / (2 * π * 60.0 * 12.0 × 10⁻⁶) ≈ 221.17 Ω
3. Calculate I_rms: I_rms = V_rms / X_C = 120 V / 221.17 Ω ≈ 0.05403 A

So, the rms current in the capacitor is approximately 54.03 mA.

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a force of 27n is applied horizontally to a box resting on a level surface. the surface exerts a friction force of 2n as the box moves. if it moves a total of 3.7m, how much work was done on the box?

Answers


The work done on the box is equal to the force applied multiplied by the distance moved, taking into account the friction force.


The force applied horizontally to the box is 27N, and it moves a distance of 3.7m.

However, there is a friction force of 2N that opposes the motion of the box.

This means that the net force acting on the box is 27N - 2N = 25N.

To calculate the work done on the box, we use the formula:

Work = force x distance

where the force is the net force (25N) and the distance is the total distance moved by the box (3.7m).

Work = 25N x 3.7m = 92.5J

Therefore, the work done on the box is 92.5J.

The work done on the box is 92.5J, taking into account the force applied, distance moved, and friction force.

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A +2.00 nC point charge is at the origin, and a second -5.00nCpoint charge is on the x-axis at x = 0.800 m. a) Fine the electricfield (magnitude and direction) at each of the following points onthe x-axis: i) x = 0.200 m; ii) x = 1.20 m; iii) x = -0.200 m. b)Find the net electric force that the two charges would exert on anelectron placed at each point in part (a).

Answers

(a) (i) [tex]$E = -7.49 \times 10^4 \text{ N}/\text{C}$[/tex] [tex]$(ii) E = -4.49 \times 10^5 \text{ N}/\text{C}$[/tex]  [tex]$(iii) E = 1.35 \times 10^5 \text{ N}/\text{C}$[/tex]

(b) [tex]$(i) F = 1.20 \times 10^{-15} \text{ N}$[/tex]  [tex]$(ii) F = 7.18 \times 10^{-15} \text{ N}$[/tex] [tex]$(iii) F = -2.14 \times 10^{-15} \text{ N}$[/tex]

a) To find the electric field at each point on the x-axis, we will use Coulomb's law:

[tex]$F = \frac{kq_1q_2}{r^2}$[/tex]

where F is the force between the two charges, k is Coulomb's constant ([tex]$8.99 \times 10^9 \text{ N}\cdot\text{m}^2/\text{C}^2$[/tex], q1 and q2 are the charges, and r is the distance between them.

To find the electric field at each point on the x-axis, we will use the formula:

[tex]$E = \frac{F}{q_0}$[/tex]

where E is the electric field, F is the force on a test charge q₀, and q₀ is the magnitude of the test charge.

i) At [tex]$x = 0.200 \text{ m}$[/tex], the distance between the two charges is [tex]$r = 0.800 \text{ m} - 0.200 \text{ m} = 0.600 \text{ m}$[/tex]. The electric field at this point is:

[tex]$E = \frac{F}{q_0} = \frac{\frac{kq_1q_2}{r^2}}{q_0} = \frac{8.99 \times 10^9 \text{ N}\cdot\text{m}^2/\text{C}^2 \times (2 \times 10^{-9} \text{ C}) \times (-5 \times 10^{-9} \text{ C})}{(0.600 \text{ m})^2 \times (1 \times 10^{-9} \text{ C})} = -7.49 \times 10^4 \text{ N}/\text{C}$[/tex]

The electric field is directed towards the negative charge, so it is in the negative x-direction.

ii) At [tex]$x = 1.20 \text{ m}$[/tex], the distance between the two charges is [tex]$r = 1.200 \text{ m} - 0.800 \text{ m} = 0.400 \text{ m}$[/tex]. The electric field at this point is:

[tex]$E = \frac{F}{q_0} = \frac{\frac{kq_1q_2}{r^2}}{q_0} = \frac{8.99 \times 10^9 \text{ N}\cdot\text{m}^2/\text{C}^2 \times (2 \times 10^{-9} \text{ C}) \times (-5 \times 10^{-9} \text{ C})}{(0.400 \text{ m})^2 \times (1 \times 10^{-9} \text{ C})} = -4.49 \times 10^5 \text{ N}/\text{C}$[/tex]

The electric field is directed towards the negative charge, so it is in the negative x-direction.

iii) At [tex]$x = -0.200 \text{ m}$[/tex], the distance between the two charges is [tex]$r = 0.800 \text{ m} + 0.200 \text{ m} = 1.000 \text{ m}$[/tex]. The electric field at this point is:

[tex]$E = \frac{(9.0 \times 10^9 \text{ N}\cdot\text{m}^2/\text{C}^2)(2.00 \times 10^{-9} \text{ C})}{(0.200 \text{ m})^2} = 1.35 \times 10^5 \text{ N}/\text{C}$[/tex]

The electric field is directed towards the positive charge, so it is in the positive x-direction.

b) To find the net electric force on an electron placed at each point in part (a), we will use the formula:

[tex]$F = Eq_0$[/tex]

where F is the force on the electron, E is the electric field at the point, and [tex]$q_0$[/tex] is the charge of the electron ([tex]$-1.60 \times 10^{-19} \text{ C}$[/tex]).

i) At [tex]$x = 0.200 \text{ m}$[/tex], the force on the electron is:

[tex]$F = Eq_0 = (-7.49 \times 10^4 \text{ N}/\text{C}) \times (-1.60 \times 10^{-19} \text{ C}) = 1.20 \times 10^{-15} \text{ N}$[/tex]

The force is directed towards the positive charge, so it is in the positive x-direction.

ii) At [tex]$x = 1.20 \text{ m}$[/tex], the force on the electron is:

[tex]$F = Eq_0 = (-4.49 \times 10^5 \text{ N}/\text{C}) \times (-1.60 \times 10^{-19} \text{ C}) = 7.18 \times 10^{-15} \text{ N}$[/tex]

The force is directed towards the negative charge, so it is in the negative x-direction.

iii) At [tex]$x = -0.200 \text{ m}$[/tex], the force on the electron is:

[tex]$F = Eq_0 = (1.34 \times 10^5 \text{ N}/\text{C}) \times (-1.60 \times 10^{-19} \text{ C}) = -2.14 \times 10^{-15} \text{ N}$[/tex]

The force is directed towards the positive charge, so it is in the positive x-direction.

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barium imparts a characteristic green color to a flame. the wavelength of this light is 551nm. determine the energy involved

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The energy involved when barium imparts a characteristic green color of the wavelength of 551 nm to a flame is 3.59 * [tex]10^{19[/tex] J

Energy is released when barium is heated and this is shown through the color change in the barium. The energy is expressed as

E = hν

h is the plank's constant

ν is the frequency

The frequency of a wave can be described as the number of waves occurring in one second. The speed of light can be described as:

c = λν

c is the speed of light

λ is the wavelength

The wavelength of the wave is given as the distance between two successive troughs and crests.

c = 3 * [tex]10^8[/tex]

3 * [tex]10^8[/tex] = ν * 551 * [tex]10^{-9[/tex]

ν = 5.44 * [tex]10^{14[/tex]

E = 6.6 * [tex]10^{-34[/tex] * 5.44 * [tex]10^{14[/tex]

= 3.59 * [tex]10^{19[/tex] J

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A light ray of n= 430 nm enters at an angle of incidence of 36.2 from air into a block of plastic. Its angle of refraction is 21.7. What is the speed of the light inside the plastic?

Answers

The speed of light inside the plastic is approximately 199.3 million meters per second.

The speed of light inside the plastic can be calculated using Snell's Law, which relates the angle of incidence and angle of refraction to the refractive index of the two media:
n1 x sin(theta1) = n2 x sin(theta2)
where n1 is the refractive index of air (approximately 1),
n2 is the refractive index of the plastic,
theta1 is the angle of incidence, and
theta2 is the angle of refraction.

We can rearrange the equation to solve for the refractive index of the plastic:
n2 = (n1 x sin(theta1)) / sin(theta2)

Plugging in the values given in the problem, we get:
n2 = (1 x sin(36.2)) / sin(21.7) = 1.505

Now we can use the formula for the speed of light in a material with refractive index n:
v = c / n
where c is the speed of light in vacuum.

Plugging in the values, we get:
v = 3 x [tex]10^8[/tex] m/s / 1.505 = 1.993 x [tex]10^8[/tex] m/s

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Disk A, with a mass of 2.0 kg and a radius of 80 cm , rotates clockwise about a frictionless vertical axle at 50 rev/s. Disk B, also 2.0 kg but with a radius of 60 cm , rotates counterclockwise about that same axle, but at a greater height than disk A, at 50 rev/s. Disk B slides down the axle until it lands on top of disk A, after which they rotate together. In which direction do disks rotate after the collision?

Answers

The final angular velocity of the combined system after the collision is 28 rev/s, the disks rotate clockwise after the collision.

To determine the direction in which the disks rotate after the collision, we need to consider the conservation of angular momentum.

Before the collision:

Disk A:

Mass (mA) = 2.0 kgRadius (rA) = 80 cm = 0.8 mAngular velocity (ωA) = 50 rev/s

Disk B:

Mass (mB) = 2.0 kgRadius (rB) = 60 cm = 0.6 mAngular velocity (ωB) = 50 rev/s (opposite direction to Disk A)

The initial angular momentum of each disk is given by:

[tex]L = I\omega[/tex]

Where I is the moment of inertia of each disk, given by:

[tex]I = 0.5mR^{2}[/tex]

The initial angular momentum of Disk A (LA) is:

[tex]LA = (0.5 \times mA \times rA^{2} ) \times \omega A[/tex]

The initial angular momentum of Disk B (LB) is:

[tex]LB = (0.5 \times mB \times rB^{2} ) \times \omega B[/tex]

Since Disk B slides down and lands on top of Disk A, the moment of inertia of the combined system after the collision ([tex]I_{combined}[/tex]) can be calculated by summing the individual moments of inertia:

[tex]I_{combined} = IA + IB = (0.5 \times mA \times rA^{2} ) + (0.5 \times mB \times rB^{2} )[/tex]

Since the disks rotate together after the collision, their angular velocities will be the same. Let's call the final angular velocity after the collision [tex]\omega_{final}[/tex].

The final angular momentum of the combined system after the collision [tex](L_{combined})[/tex] is:

[tex]L_{combined} = I_{combined} \times \omega_{final}[/tex]

According to the conservation of angular momentum, the initial angular momentum of the system before the collision should be equal to the final angular momentum after the collision:

[tex]LA + LB = L_{combined}[/tex]

Let's substitute the values and solve for [tex]\omega_{final}[/tex].

[tex](0.5 \times mA \times rA^{2} ) \times \omega A + (0.5 \times mB \times rB^{2} ) \times \omega B = I_{combined} \times \omega_{final}[/tex]

Now we can substitute the values and calculate the final angular velocity [tex]\omega_{final}[/tex].

[tex](0.5 \times 2.0 kg \times (0.8 m)^{2} ) \times (50 rev/s) + (0.5 \times 2.0 kg \times (0.6 m)^{2} ) \times (-50 rev/s) \\= (0.5 \times 2.0 kg \times (0.8 m)^{2} + 0.5 \times 2.0 kg \times (0.6 m)^{2} ) \times \omega_{final}[/tex]

Simplifying the equation:

[tex](0.5 \times 2.0 kg \times ((0.8 m)^{2} - (0.6 m)^{2} )) \times (50 rev/s) = (0.5 \times 2.0 kg \times (0.8 m)^{2} + 0.5 \times 2.0 kg \times (0.6 m)^{2} ) \times \omega_{final}[/tex]

[tex](0.5 \times 2.0 kg \times (0.64 m^{2} - 0.36 m^{2} )) \times (50 rev/s) = (0.5 \times 2.0 kg \times (0.8 m)^{2} + 0.5 \times 2.0 kg \times (0.6 m)^{2} ) \times \omega_{final}[/tex]

[tex](0.5 \times 2.0 kg \times (0.28 m^{2} )) \times (50 rev/s) = (0.5 \times 2.0 kg \times (0.8 m)^{2} + 0.5 \times 2.0 kg \times (0.6 m)^{2} ) \times \omega_{final}[/tex]

[tex](0.5 \times 2.0 kg \times (0.28 m^{2} )) \times (50 rev/s) = (0.5 \times 2.0 kg \times (0.64 m^{2} ) + 0.5 \times 2.0 kg \times (0.36 m^{2} )) \times \omega_{final}[/tex]

[tex](0.56 kgm^{2}) \times (50 rev/s) = (0.64 kgm^{2} + 0.36 kg\times m^{2} ) \times \omega_{final}[/tex]

[tex]28 kgm^{2} rev/s = 1 kg\timesm^{2} \times \omega_{final}[/tex]

Simplifying further, we have:

28 rev/s = [tex]\omega_{final}[/tex]

Therefore, the final angular velocity of the combined system after the collision is 28 rev/s.

Since the disks were rotating in opposite directions before the collision, the fact that they now rotate in the same direction (clockwise) after the collision indicates a change in their original direction. Thus, the disks rotate clockwise after the collision.

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two 100-gram masses are located at (2.0,0) and (0,-1.0) on a balance table. what location must a 200-gram mass be placed at to balance the table?

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A 200-gram mass must be placed at the location (0, 1.5) on the balance table to balance it with the two 100-gram masses at (2.0, 0) and (0, -1.0).

To balance the table with a 200-gram mass, we need to consider the moments of force about the center of the balance table (0,0).

Step 1: Determine the moments of force for each of the two 100-gram masses.

Moment = mass x distance.
Moment1 = 100 g * 2.0 m = 200 g*m
Moment2 = 100 g * 1.0 m = 100 g*m

Step 2: Find the total moment needed to balance the table.
Total moment = Moment1 + Moment2 = 200 g*m + 100 g*m = 300 g*m

Step 3: Calculate the distance needed for the 200-gram mass to balance the table.
Distance = Total moment / 200 g = 300 g*m / 200 g = 1.5 m

So the 200-gram mass must be placed at (0, 1.5) to balance the table.

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what ultimately transfers from one location to another in electromagnetic induction is _________.

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Electric energy is transferred via a changing magnetic field.

What is electromagnetic induction?

The phenomenon of electromagnetic induction occurs when a changing magnetic field induces an electric current in a conductor. The ultimate transfer that occurs from one location to another in electromagnetic induction is electrical energy.

Here are the steps to explain the transfer of energy in electromagnetic induction:

A changing magnetic field is created around a conductor, either by moving the conductor through a stationary magnetic field or by changing the magnetic field around a stationary conductor.The changing magnetic field induces a voltage, or electromotive force (EMF), in the conductor. This is known as Faraday's Law of Induction.The induced voltage creates an electric current to flow in the conductor. This is known as Lenz's Law, which states that the direction of the induced current opposes the change that produced it.The electrical energy transferred from the magnetic field to the conductor can be used to power devices or do work, such as lighting a bulb or turning a motor.

the transfer of energy that occurs in electromagnetic induction is the conversion of a changing magnetic field into an electric current, which can be used to do work or power devices.

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A biologist is studying the possible role of earthworms on the fertility of farm soils. As part of this research, the number of earthworms per acre of farmland is being estimated. During the first phase of this study, a total of 5 one-meter square samples were taken per acre. The number of earthworms in each of the five samples was carefully counted and the results used to estimate the total number of earthworms per acre. How can this estimate of the number of earthworms per acre be improved?

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There are several ways to improve the estimate of the number of earthworms per acre in the study:

Increase the number of samples: Instead of taking only 5 samples, more samples could be taken from different locations in the farmland. This would provide a better representation of the entire area and reduce the chance of under or overestimating the population.

Increase the size of the samples: Instead of using one-meter square samples, larger samples could be taken to cover a wider area. This would give a more accurate estimate of the earthworm population.

Use statistical analysis: Statistical techniques such as mean, standard deviation, and confidence intervals could be used to analyze the data and determine the accuracy of the estimate. This would help to identify any outliers or errors in the data and provide a more reliable estimate.

Use different sampling methods: Different sampling methods, such as stratified or systematic sampling, could be used to improve the accuracy of the estimate. These methods ensure that the samples are taken randomly and represent the entire population.

Repeat the study: Conducting the study multiple times and taking the average of the results would provide a more accurate estimate of the earthworm population. This would also help to identify any variations in the population over time.

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There is a uniform magnetic field of magnitude 1.8 T in the +z direction. Find the force on a particle of charge −1.4 nC if its velocity is each of the following. (a) 1.0 km/s in the y-z plane in a direction that makes an angle of 40° with the z axis (measured from the +z axis to the +y axis). magnitude N direction (b) 1.0 km/s in the x-y plane in a direction that makes an angle of 40° with the x axis (measured from the +x axis to the +y axis). magnitude N direction Supporting Materials

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Therefore, the force on the particle is 1.64×10^-5 N, directed in the -x direction.

(a) The velocity vector of the particle in the y-z plane can be written as v = (0, v0 cos(40°), v0 sin(40°)), where v0 = 1.0 km/s is the magnitude of the velocity. Since the magnetic field is uniform in the +z direction, the force on the particle is given by the vector product of the velocity and the magnetic field:

F = q v × B

where q = -1.4 nC is the charge of the particle. Using the right-hand rule, we find that the force is directed in the -x direction. The magnitude of the force is given by:

|F| = q |v| |B| sin(θ)

where θ is the angle between v and B. In this case, θ = 50° (measured from the +z axis to the -x axis). Substituting the given values, we get:

|F| = (1.4×10^-9 C) (1000 m/s) (1.8 T) sin(50°) = 1.64×10^-5 N

(b) The velocity vector of the particle in the x-y plane can be written as v = (v0 cos(40°), v0 sin(40°), 0). Using the same formula as before, we find that the force on the particle is directed in the -z direction, withmagnitude:

|F| = (1.4×10^-9 C) (1000 m/s) (1.8 T) sin(50°) = 1.64×10^-5 N

Therefore, the force on the particle is 1.64×10^-5 N, directed in the -z direction.

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a u-shaped bracket made of metal has a copper slider on it. (the slider is the right vertical line in the figure below. the rest of the u-shaped bracket doesn't move.) if the slider is moved right and then left, while the entire assembly is in a uniform magnetic field (which is directed out of the page), what will be the direction of the current induced on the slider itself?

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the direction of the current induced on the slider will depend on the direction of the motion of the slider, and it will be clockwise when the slider is moved to the right and counterclockwise when the slider is moved to the left.

Based on Faraday's law of electromagnetic induction, a changing magnetic field induces an electromotive force (EMF) in a conductor. The direction of the induced current is given by Lenz's law, which states that the direction of the induced current is such that it opposes the change in the magnetic field that produced it.

In this case, when the slider is moved to the right, the magnetic field through the slider will increase, and when the slider is moved to the left, the magnetic field through the slider will decrease. Therefore, the direction of the induced current will be such that it creates a magnetic field that opposes the change in the original magnetic field. This is achieved by the induced current flowing in a direction such that it creates a magnetic field that opposes the original magnetic field.

Using the right-hand rule for the direction of the magnetic field around a current-carrying conductor, we can determine the direction of the induced current in the copper slider. When the slider is moved to the right, the induced current will flow in a clockwise direction, and when the slider is moved to the left, the induced current will flow in a counterclockwise direction.

Therefore, the direction of the current induced on the slider will depend on the direction of the motion of the slider, and it will be clockwise when the slider is moved to the right and counterclockwise when the slider is moved to the left.

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what is the rotational inertia the standard dvd shown above has an outer diameter of and its interior hole has a diameter of

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The resistance of an item to circular motion is measured by its rotational inertia. The normal DVD exhibits rotational inertia due to its round form. The rotational inertia of a DVD is determined by its mass distribution and the object's shape.

To calculate the rotational inertia of a DVD, we must first determine its mass and radius of gyration. The radius of gyration is the distance between the axis of rotation and a point where the mass of an object may be concentrated without affecting its rotational inertia.

The rotational inertia of a DVD with a mass of x grams and a uniform mass distribution may be computed using the formula: I = (1/2) * m * r², where m is the mass of the DVD and r is the radius of gyration.

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how is the beat frequency that you measured related to the two individual frequencies? compare your conclusion with information given in your textbook.

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The beat frequency that is measured is related to the difference between the two individual frequencies.

When two sound waves with slightly different frequencies are played together, they interfere with each other to create a phenomenon called beats. These beats can be heard as a pulsing sound, and the frequency of this pulsing is called the beat frequency. The beat frequency is equal to the difference between the two individual frequencies.

For example, if two sound waves with frequencies of 300 Hz and 310 Hz are played together, the beat frequency will be 10 Hz (310 - 300 = 10). This means that the sound waves will create a pulsing sound with a frequency of 10 Hz.

In conclusion, the beat frequency that is measured is directly related to the difference between the two individual frequencies. This is consistent with the information given in most textbooks on sound waves and acoustics.

Overall, understanding beat frequencies can be helpful in a variety of applications, such as tuning musical instruments and analyzing complex sound waves.

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why didn't a planet form where the asteroid belt is now located? why didn't a planet form where the asteroid belt is now located? there was not enough material in this part of the solar nebula to form a planet.

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The reason a planet didn't form where the asteroid belt is now located is due to the gravitational influence of Jupiter and the limited amount of material in that region of the solar nebula.

The reason why a planet did not form where the asteroid belt is now located is that there was not enough material in that part of the solar nebula to form a planet.

The  solar nebula is the cloud of gas and dust from which the solar system formed, and it contained varying amounts of material in different regions.

In  the region where the asteroid belt is now located, the material was not dense enough to coalesce into a planet. Instead, the material remained scattered and formed into small bodies such as asteroids and comets. Therefore, the asteroid belt is a region of the solar system that contains mostly small, rocky objects rather than a large, cohesive planet.

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a converging lens and a converging mirror have the same focal length in air. which one has a longer focal length if they are used underwater?

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When a converging lens or a converging mirror is used underwater, its focal length changes due to the change in the refractive index of water. The refractive index of water is higher than air, which causes light to bend more when passing through water.

In general, a converging lens has a longer focal length than a converging mirror. However, when they are used underwater, the opposite is true. The converging mirror will have a longer focal length than the converging lens because the mirror reflects the light, causing it to bend less compared to the lens which refracts the light.

Therefore, if a converging lens and a converging mirror have the same focal length in the air, the converging mirror will have a longer focal length when used underwater.

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If I apply a 45N force to push a box 22m across the floor, how my work have I done?
2J
67J
990J

Answers

Answer:

990J

Explanation:

Work = Force * distance

----> W = 45N * 22m

           = 990 J

a far-sighted person has a near point of 150 cm and a cornea-to-retina distance of 2.5 cm. an object is placed 29 cm in front of the unaided eye. how far from the retina is the image formed.

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The image is formed 3.48 cm behind the retina.

The image distance can be found using the thin lens formula:

1/f = 1/do + 1/di

1/f = 1/121 cm + 1/2.5 cm

Solving for f:

f = 3.34 cm

Now we can use the formula to find the image distance:

1/3.34 cm = 1/121 cm + 1/di

di = 3.48 cm

Therefore, the image is formed about 3.48 cm behind the retina. This means the person would need a corrective lens with a focal length of about 3.34 cm to bring the image into focus on the retina.

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An electron is initially moving at 1.4 times10^7 m/s. It moves 3.5 m in the direction of a uniform electric field of magnitude 120 N/C. What is the speed of the electron at the end of the motion? A) 1.4 times 10^7 m/s B) 1.9 times 10^7 m/s C) This situation is impossible, since it would require the final kinetic energy to be negative. D) 7.0 times 10^6 m/s E) 1.2 times 10^7 m/s

Answers

The final speed of the electron is the same as its initial speed, which is [tex]1.4 × 10^7 m/s[/tex]. The correct answer is A).

The electric force experienced by an electron in an electric field is given by F = qE, where q is the charge of the electron and E is the magnitude of the electric field. Since the electron has a negative charge, the direction of the force is opposite to the direction of the electric field.

Using the force equation F = ma, where m is the mass of the electron, we can write the acceleration of the electron as:

a = F/m = qE/m

We can use the kinematic equation [tex]v^2 = u^2 + 2as[/tex], where u is the initial velocity, v is the final velocity, a is the acceleration, and s is the distance traveled.

Substituting the given values, we get:

[tex]a = (1.6 × 10^-19 C)(120 N/C)/(9.11 × 10^-31 kg) = 2.11 × 10^14 m/s^2[/tex]

s = 3.5 m

[tex]u = 1.4 × 10^7 m/s[/tex]

Plugging these values into the kinematic equation, we get:

[tex]v^2 = (1.4 × 10^7 m/s)^2 + 2(2.11 × 10^14 m/s^2)(3.5 m) = 1.96 × 10^15 m^2/s^2[/tex]

Taking the square root of both sides, we get:

[tex]v = 1.4 × 10^7 m/s[/tex]

Therefore, the final speed of the electron is the same as its initial speed, which is [tex]1.4 × 10^7 m/s[/tex]. The correct answer is A).

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an object with mass m is suspended at rest from a spring with a spring constant of 200 n/m. the length of the spring is 5 cm longer than its unstretched length l, as shown above. a person then exerts a force on the object and stretches the spring an additional 5 cm. what is the total energy stored in the spring at the new stretched length?

Answers

The total energy stored in the spring at the new stretched length can be calculated using the formula for the potential energy of a spring, which is 1/2*k*x^2, where k is the spring constant and x is the displacement from the equilibrium position.

In this case, the displacement is 5 cm + 5 cm = 10 cm and the spring constant is 200 N/m. Converting the displacement to meters, we get x = 0.1 m. Therefore, the total energy stored in the spring is 1/2*(200 N/m)*(0.1 m)^2 = 1 J.
Here's the step-by-step explanation:

1. The object is suspended at rest from a spring, causing it to stretch 5 cm longer than its unstretched length. Using Hooke's Law, we can find the force exerted by the spring: F = kx, where F is the force, k is the spring constant (200 N/m), and x is the stretch (5 cm = 0.05 m). So, F = 200 × 0.05 = 10 N.

2. The person exerts an additional force, stretching the spring another 5 cm (0.05 m). The total stretch now is 10 cm (0.1 m).

3. To find the total energy stored in the spring, we can use the formula for the potential energy of a spring: U = (1/2)kx^2. Using the total stretch, x = 0.1 m, and the spring constant, k = 200 N/m, we can calculate the total energy stored: U = (1/2) × 200 × (0.1)^2 = 1 Joule.

The main answer is: The total energy stored in the spring at the new stretched length is 1 Joule.

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The gear motor can develop 3 hp when it turns at 150 rev>min. If the allowable shear stress for the shaft is tallow = 12 ksi, determine the smallest diameter of the shaft to the nearest 1 8 in. that can be used.

Answers

The smallest diameter of the shaft that can be used is approximately 1 5/8 in or 1.625 in.

We can use the formula for power and rotational speed to find the torque developed by the gear motor:

P = Tω

where P is power, T is torque, and ω is rotational speed in radians per second.

First, we convert the rotational speed to radians per second:

150 rev/min = 150/60 rev/s = 2.5 rev/s

ω = 2.5 x 2π = 15.71 rad/s

Now we can solve for the torque T:

3 hp = 3 x 746 = 2238 W

2238 = T x 15.71

T = 142.5 Nm

To find the minimum diameter of the shaft, we can use the formula for torsional shear stress:

τ = Tc / J

where τ is shear stress, T is torque, c is the distance from the center of the shaft to the outer surface, and J is the polar moment of inertia of the shaft cross-section.

Assuming a solid circular shaft, J = πd^4 / 32, where d is the diameter. Rearranging the formula, we get:

d = ((32τ J) / π)^1/4

We can substitute the values given:

τ = 12 ksi = 12 x 1000 psi = 12000 psi

J = π(0.5 in)^4 / 32 = 0.0491 in^4

d = ((32 x 12000 x 0.0491) / π)^1/4 = 1.68 in

Therefore, the smallest diameter of the shaft that can be used is approximately 1 5/8 in or 1.625 in.

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