It was once the world's highest amusement ride in Las Vegas, Nevada. A 160.ft tower built on the upper deck of the 921ft Stratosphere Tower, with a carriage that would launch riders from rest to 45.0 mph. It literally felt like you would be launched right off the top of the tower. Ride safety, and for the safety of people below, requires all loose items to be left at the station before boarding. Note: the acceleration of this ride is not constant up the 160.ft spire, but it produces a maximum of 4g. Suppose a rider got away with carrying a purse on the ride. If the purse + contained items weigh 5.00 lbs, calculate the applied force in Ibs!) the rider must apply to keep hold of the purse under both the published 4g acceleration as well as half that. 4g applied force: ______ lbs. How many bottles of milk is this (approx. and use whole number): ________. Is it likely the rider could hold the purse? _______
2g applied force: _______ lbs. Could the average rider hold the purse? ______

Answers

Answer 1

The force applied by the rider to hold the purse under 4g acceleration is 6.08 lbs. The force applied by the rider to hold the purse under 2g acceleration is 3.04 lbs. The average rider could hold the purse under 2g acceleration, but it is unlikely that they could hold it under 4g acceleration.

Weight of the purse = 5.00 lbs

Acceleration of the ride:

For 4g: a = 4g = 4 * 9.81 m/s²For 2g: a = 2g = 2 * 9.81 m/s²

To find: The force applied by the rider to hold the purse under both 4g and 2g acceleration.

For 4g applied force:

The acceleration on the ride is a = 4g * g = 4 * 9.81 m/s² = 39.24 m/s²

The mass of the purse can be calculated as:

mass = weight / g = 5.00 lbs / 32.2 ft/s² = 0.155 lbs

Therefore, the force applied by the rider to hold the purse is:

force = mass * acceleration = 0.155 lbs * 39.24 m/s² = 6.08 lbs

The force applied by the rider to hold the purse under 4g acceleration is 6.08 lbs.

For 2g applied force:

The acceleration on the ride is a = 2g * g = 2 * 9.81 m/s² = 19.62 m/s²

The mass of the purse can be calculated as:

mass = weight / g = 5.00 lbs / 32.2 ft/s² = 0.155 lbs

Therefore, the force applied by the rider to hold the purse is:

force = mass * acceleration = 0.155 lbs * 19.62 m/s² = 3.04 lbs

The force applied by the rider to hold the purse under 2g acceleration is 3.04 lbs.

Hence, the average rider could hold the purse under 2g acceleration, but it is unlikely that they could hold it under 4g acceleration.

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Related Questions

Find a sinusoidal equation for a 40Kw/m wave energy in the sea.

Answers

To find the sinusoidal equation for a 40kW/m wave energy in the sea, we need to use the formula; y = A sin (ωt + Φ)where; A is the amplitude of the wave,ω is the angular frequency of the wave,t is time, andΦ is the phase angle.

The given value is 40kW/m wave energy in the sea. This represents the amplitude (A) of the wave. Therefore, A = 40.We also know that the period of the wave, T = 150m since it takes 150m for the wave to complete one cycle.To find the angular frequency (ω) of the wave, we use the formula;ω = 2π/T= 2π/150 = π/75Therefore, ω = π/75Putting these values in the formula;y = 40 sin (π/75 t + Φ)Where Φ is the phase angle, which is not given in the question.

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Calculate the magnetic field that produces a magnetic force of 1.8mN east on a 85 cm wire carrying a conventional current of 3.0 A directed south

Answers

The magnetic field that produces a magnetic force of 1.8 mN east on the 85 cm wire carrying a current of 3.0 A directed south is approximately 0.706 T.

To calculate the magnetic field that produces a magnetic force on a current-carrying wire, we can use the formula:

Force = Magnetic field (B) × Current (I) × Length (L) × sin(θ)

where θ is the angle between the direction of the magnetic field and the current.

In this case, we are given the force (1.8 mN), the current (3.0 A), and the length of the wire (85 cm = 0.85 m). We also know that the force is directed east and the current is directed south, so the angle between the magnetic field and the current is 90 degrees.

Rearranging the formula, we can solve for the magnetic field:

Magnetic field (B) = Force / (Current × Length × sin(θ))

Plugging in the values:

B = (1.8 mN) / (3.0 A × 0.85 m × sin(90°))

The sine of 90 degrees is 1, so we have:

B = (1.8 × 10^-3 N) / (3.0 A × 0.85 m × 1)

B = 0.706 T

Therefore, the magnetic field that produces a magnetic force of 1.8 mN east on the 85 cm wire carrying a current of 3.0 A directed south is approximately 0.706 T.

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Telescope Magnification: What is the magnification of a 1200mm focal length, 8" diameter reflecting telescope using a 26mm eyepiece? 2.14x 46x 5,280x 6x 154x

Answers

The magnification of a 1200mm focal length, 8" diameter reflecting telescope using a 26mm eyepiece is 46x.

The magnification of a telescope is determined by dividing the focal length of the telescope by the focal length of the eyepiece. In this case, the telescope has a focal length of 1200mm, and the eyepiece has a focal length of 26mm.

By dividing 1200mm by 26mm, we get a magnification of approximately 46x.Magnification is an important factor in telescopes as it determines how much larger an object appears compared to the  eye.

A higher magnification allows for closer views of distant objects, but it also decreases the field of view and may result in a dimmer image. In this case, a magnification of 46x means that the telescope will make objects appear 46 times larger than they would with the  eye.

This can be useful for observing celestial objects in greater detail, such as the Moon or planets. However, it's worth noting that magnification alone does not determine the quality of the image.

Other factors like the quality of the telescope's optics, atmospheric conditions, and the observer's own eyesight can also impact the overall viewing experience.

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Calculate the Magnitude of the Electric Force (in Newtons) between a 4x10-6 C and a 6 x10-6 C charges separated by 3 cm.

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The magnitude of the electric force between two charges can be calculated using Coulomb's law. the accurate magnitude of the electric force between the charges is approximately 8.97 x 10^7 Newtons.

Coulomb's law states that the magnitude of the electric force between two charges is directly proportional to the product of the magnitudes of the charges and inversely proportional to the square of the distance between them.

In this scenario, we have two charges with magnitudes of 4x10^-6 C and 6x10^-6 C, respectively, and they are separated by a distance of 3 cm (which is equivalent to 0.03 m).

Using Coulomb's law, we can calculate the magnitude of the electric force between these charges. The formula is given by F = k * (|q1| * |q2|) / r^2, where F represents the electric force, k is the electrostatic constant (approximately equal to 9x10^9 N m^2/C^2), |q1| and |q2| are the magnitudes of the charges, and r is the distance between the charges.

Plugging these values into the formula: F = (9 x 10^9 N m^2/C^2) * ((4 x 10^-6 C) * (6 x 10^-6 C)) / (0.03 m)^2

Calculating the expression: F = (9 x 10^9 N m^2/C^2) * (24 x 10^-12 C^2) / (0.0009 m^2)

= (9 x 10^9 N m^2/C^2) * 2.67 x 10^-5 C^2 / 0.0009 m^2

= (9 x 10^9 N m^2/C^2) * 2.967 x 10^-2 N

Calculating the final result: F ≈ 8.97 x 10^7 N

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A block is released from rest at a vertical height H above the base of a frictionless ramp. After sliding off the ramp, the block encounters a rough, horizontal surface and comes to a stop after moving a distance 2H. What is the coefficient of kinetic friction between the block and the horizontal surface?

Answers

The coefficient of kinetic friction between the block and the vertical  face is H/ 2H or1/2.

In the given question, a block is released from rest at a  perpendicular height H above the base of a  amicable ramp. After sliding off the ramp, the block encounters a rough, vertical  face and comes to a stop after moving a distance 2H. We need to find the measure of kinetic  disunion between the block and the vertical  face. Let's denote the coefficient of kinetic  friction by' µ'. The distance moved by the block is 2H. The final  haste of the block is 0 m/ s as the block comes to a stop. Now, we know that the work done by  friction is equal to the kinetic energy lost by the block.  W =  change in KE.

This implies the following relation

Frictional force x Distance moved by the block = (1/2) m( vf ²- vi ²)  

We can calculate the  original  haste of the block when it slides off the ramp using the conservation of energy.

Total energy at the top =  Implicit energy at the top  mgh = (1/2) mv ²  v =  sqrt( 2gh)  So,  original  haste, vi =  sqrt( 2gh)  

The final  haste of the block, vf =  0 m/ s  

The distance moved by the block, d =  2H

From the below relation, we can write  µmgd = (1/2) m( vf ²- vi ²)  µgd = (1/2) v ²  µgd = (1/2)( sqrt( 2gh)) ²  µgd =  gh  µ =  h/ d =  H/ 2H = 1/2  

The coefficient of kinetic friction between the block and the vertical  face is H/ 2H or1/2.

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A beam of light strikes the surface of glass (n = 1.46) at an angle of 70⁰ with respect to the normal. Find the angle of refraction inside the glass. Take the index of refraction of air n1 = 1.

Answers

n1sinθ1 = n2sinθ2, sinθ2 = (n1/n2)sinθ1sinθ2 = (1/1.46)sin70°sinθ2 = 0.643θ2 = sin⁻¹ (0.643)θ2 = 40.9°Therefore, the angle of refraction inside the glass is 40.9°. Hence, the correct option is (B).

According to Snell's Law, n1sinθ1 = n2sinθ2where n1 is the index of refraction of the first medium, θ1 is the angle of incidence, n2 is the index of refraction of the second medium, and θ2 is the angle of refraction.We know that:Angle of incidence, θ1 = 70°Index of refraction of air, n1 = 1Index of refraction of glass, n2 = 1.46Angle of refraction inside the glass, θ2 = ?Therefore,n1sinθ1 = n2sinθ2, sinθ2 = (n1/n2)sinθ1sinθ2 = (1/1.46)sin70°sinθ2 = 0.643θ2 = sin⁻¹ (0.643)θ2 = 40.9°Therefore, the angle of refraction inside the glass is 40.9°. Hence, the correct option is (B).

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A worker drags a crate across a factory floor by pulling on a rope tied to the crate. The worker exerts a force of 450 N on the rope, which is inclined at 38 ∘
to the horizontal, and the floor exerts a horizontal force of 125 N that opposes the motion. Calculate the acceleration of the crate if its mass is 310 kg.

Answers

The acceleration of the crate is approximately [tex]2.13 m/s^2[/tex] is calculated by considering the forces acting on it. The worker exerts a force of 450 N on the rope, inclined at 38 degrees to the horizontal, while the floor exerts a horizontal force of 125 N opposing the motion.

To calculate the crate's acceleration, we need to consider the net force acting on it. The net force is the vector sum of the forces acting on the crate. In this case, the force exerted by the worker is directed at an angle of 38 degrees to the horizontal, while the opposing force by the floor is purely horizontal.

We can break down the force exerted by the worker into its horizontal and vertical components. The vertical component does not contribute to the crate's acceleration since it is perpendicular to the motion. The horizontal component of the worker's force is given by[tex]F_h = F * cos(\theta)[/tex], where F is the magnitude of the force (450 N) and θ is the angle (38 degrees).

The net force acting on the crate can be calculated as the difference between the horizontal force exerted by the worker and the opposing force by the floor. Therefore, the net force is [tex]F_{net} = F_h - F_{floor} = F * cos(\theta) - F_{floor}[/tex]r.

Using Newton's second law, [tex]F_{net} = m * a[/tex], where m is the mass of the crate (310 kg) and a is its acceleration, we can solve for the acceleration:

[tex]F * cos(\theta) - F_{floor} = m * a[/tex]

Substituting the given values:

450 N * cos(38 degrees) - 125 N = 310 kg * a

Simplifying and solving for a:

[tex]a = (450 N * cos(38 degrees) - 125 N) / 310 kg =2.13 m/s^2[/tex]

Therefore, the acceleration of the crate is approximately [tex]2.13 m/s^2[/tex].

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Write the Lagrange's equation of lagrangian L(x, x, y,ỹ, t) and the constraint force f(x, y). Is the total energy conserved?, explain why. astogint force

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The Lagrange's equation for a system described by a Lagrangian function L(x, ẋ, y, ỹ, t) is given by d/dt (∂L/∂ẋ) - (∂L/∂x) = f(x, y), where x and y are the generalized coordinates, ẋ and ỹ are their respective velocities, t is time, and f(x, y) represents the constraint force. The total energy of the system is conserved if the Lagrangian is not explicitly dependent on time (i.e., ∂L/∂t = 0).

Lagrange's equation is a fundamental principle in classical mechanics that describes the dynamics of a system in terms of its Lagrangian function. It states that the time derivative of the momentum (∂L/∂ẋ) minus the derivative of the Lagrangian with respect to the generalized coordinate (x) is equal to the external forces acting on the system, represented by the constraint force f(x, y).

Regarding the conservation of total energy, it depends on the properties of the Lagrangian. If the Lagrangian does not explicitly depend on time (i.e., ∂L/∂t = 0), then the total energy of the system, which is the sum of the kinetic and potential energies, is conserved. This is a consequence of Noether's theorem, which states that if a Lagrangian has a continuous symmetry, such as time translation symmetry, there is a conserved quantity associated with it.

However, if the Lagrangian explicitly depends on time, the total energy may not be conserved, and energy can be transferred into or out of the system. In such cases, the Lagrangian represents a system with time-dependent external forces or dissipative effects.

In summary, the Lagrange's equation describes the dynamics of a system using the Lagrangian function and constraint forces. The conservation of total energy depends on whether the Lagrangian is explicitly dependent on time or not. If it is not, the total energy is conserved; otherwise, energy may be transferred in or out of the system.

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Both of the following statements apply to Part (a) answers and Part (b) answers: (a) Two protons exert a repulsive force on one another when separated by 6.4 fm. What is the magnitude of the force on one of the protons? (b) What is the magnitude of the electric field of a proton at 6.4 fm? (Enter your answer in calculation notation to 3-sigfigs with appropriate units. Ex: 3.00X10" = 3,00E+8). Answers are to 3SigFigs in calculator notation. Use proper units.

Answers

(a) Therefore, the magnitude of the force on one of the protons is 3.62 × 10⁻¹¹ N. (b) Therefore, the magnitude of the electric field of a proton at 6.4 fm is 8.99 × 10⁶ N/C.

(a) Two protons exert a repulsive force on one another when separated by 6.4 fm.

The magnitude of the force on one of the protons can be calculated using Coulomb's law.

Coulomb's law states that the force between two charges is proportional to the product of the charges and inversely proportional to the square of the distance between them.

Mathematically, F = (k * q1 * q2) / r²Where F is the force, k is Coulomb's constant (8.99 × 10⁹ N · m²/C²), q1 and q2 are the charges, and r is the distance between the charges.

The magnitude of the force on one of the protons can be calculated as follows:F = (8.99 × 10⁹ N · m²/C²) * ((+1.6 × 10⁻¹⁹ C)² / (6.4 × 10⁻¹⁵ m)²)≈ 3.62 × 10⁻¹¹ N

Therefore, the magnitude of the force on one of the protons is 3.62 × 10⁻¹¹ N.

(b) The magnitude of the electric field of a proton at 6.4 fm can be calculated using Coulomb's law.

Coulomb's law states that the electric field created by a point charge is proportional to the charge and inversely proportional to the square of the distance from the charge.

Mathematically,E = k * (q / r²)Where E is the electric field, k is Coulomb's constant (8.99 × 10⁹ N · m²/C²), q is the charge, and r is the distance from the charge.

The magnitude of the electric field of a proton at 6.4 fm can be calculated as follows:E = (8.99 × 10⁹ N · m²/C²) * (+1.6 × 10⁻¹⁹ C / (6.4 × 10⁻¹⁵ m)²)≈ 8.99 × 10⁶ N/C

Therefore, the magnitude of the electric field of a proton at 6.4 fm is 8.99 × 10⁶ N/C.

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A different person uses +2.3 diopter contact lenses to read a book that they hold 28 cm from their eyes. (i) Is this person nearsighted or farsighted? JUSTIFY YOUR ANSWER. NO CREDIT WILL BE GIVEN WITHOUT JUSTIFICATION. (ii) Where is this person's near point, in cm? (iii) As this person ages, they eventually must hold the book 38 cm from their eyes in order to see clearly with the same +2.3 diopter lenses. What power lenses do they need in order to hold book back at the original 28 cm distance?

Answers

i) The person is using +2.3 diopter contact lenses. Since the person requires positive diopter lenses to read the book, it indicates that they are farsighted.

ii) The person's near point is approximately 43.48 cm.

iii) The person would need approximately +0.0263 diopter lenses to hold the book at the original 28 cm distance.

(i) To determine if the person is nearsighted or farsighted, we need to consider the sign convention for diopters. Positive diopter values indicate that the person is farsighted, while negative diopter values indicate that the person is nearsighted.

Justification: Farsighted individuals have difficulty focusing on nearby objects and require converging lenses (positive diopter lenses) to bring the light rays to a focus on the retina.

(ii) The near point refers to the closest distance at which a person can focus on an object clearly without any optical aid. It is determined by the maximum amount of accommodation of the eye.

Since the person is farsighted and using +2.3 diopter lenses to read the book at a distance of 28 cm, we can use the formula for calculating the near point:

Near point = 100 cm / (diopter value in positive form)

Near point = 100 cm / (2.3 D)

Near point ≈ 43.48 cm

(iii) If the person ages and needs to hold the book 38 cm from their eyes to see clearly with the same +2.3 diopter lenses, we can calculate the power of lenses they would need to hold the book at the original 28 cm distance.

Using the lens formula:

1/f = 1/di + 1/do

Where f is the focal length of the lens, di is the distance of the image (38 cm), and do is the distance of the object (28 cm).

Solving for f, we get:

1/f = 1/38 cm + 1/28 cm

1/f ≈ 0.0263 cm^(-1)

f ≈ 38.06 cm

The power of the lenses required to hold the book at the original 28 cm distance can be calculated as:

Power = 1/f

Power ≈ 1/38.06 D

Power ≈ 0.0263 D

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A long straight wire carries a current of 5 A. What is the magnetic field a distance 5 mm from the wire? 1. 2.0 x 10-7 T B) 2.0 × 10-¹ T C) 6.3 x 10-¹ T D) 6.3 x 10-7 T

Answers

The magnetic field generated by a long straight wire carrying a current of 5 A at a distance of 5 mm from the wire is [tex]2.0 * 10^-^7[/tex] T.

According to Ampere's law, the magnetic field around a long straight wire is inversely proportional to the distance from the wire. The formula to calculate the magnetic field produced by a current-carrying wire is given by

[tex]B = (\mu_0 * I) / (2\pi * r)[/tex]

where B is the magnetic field, μ₀ is the permeability of free space[tex](4\pi * 10^-^7 T.m/A)[/tex], I is current, and r is the distance from the wire.

Plugging in the values,

[tex]B = (4\pi * 10^-^7 T.m/A * 5 A) / (2\pi * 0.005 m),[/tex]

which simplifies to:

[tex]B = 2.0 * 10^-^7 T[/tex].

Therefore, the magnetic field at a distance of 5 mm from the wire is [tex]2.0 * 10^-^7 T[/tex].

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At the second minimum adjacent to the central maximum of a single-slit diffraction pattern the Huygens wavelet from the top of the slit is 180 ∘
out of phase with the wavelet from: the midpoint of the slit the bottom of the slit None of these choices. a point one-fourth of the slit width from the top a point one-fourth of the slit width from the bottom of the slit

Answers

At the second minimum adjacent to the central maximum of a single-slit diffraction pattern, the Huygens wavelet from the top of the slit is 180° out of phase with the wavelet from the midpoint of the slit.

In a single-slit diffraction pattern, when light passes through a narrow slit, it spreads out and creates a pattern of bright and dark regions on a screen. The central maximum is the brightest spot in the pattern, while adjacent to it are dark regions called minima. The Huygens wavelet principle explains how each point on the slit acts as a source of secondary wavelets that interfere with each other to form the overall pattern.

At the second minimum adjacent to the central maximum, the wavelet from the top of the slit and the wavelet from the midpoint of the slit are out of phase by 180 degrees. This means that the crest of one wavelet aligns with the trough of the other, resulting in destructive interference and a dark region. The wavelet from the bottom of the slit and the wavelet from a point one-fourth of the slit width from the top or bottom are not specifically mentioned in the question, so their phase relationship cannot be determined.

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Suppose the annual-average net top-of-atmosphere radiation equatorward of 45 degrees latitude is +6 PW. What is the net top-of-atmosphere radiation poleward of 45 degrees, to the neasrest PW? don't forget the signt

Answers

The value of net top-of-atmosphere radiation poleward of 45 degrees latitude cannot be determined due to the lack of information regarding the outgoing longwave radiation in that region.

The given problem involves finding the net top-of-atmosphere radiation poleward of 45 degrees latitude based on the provided value of annual-average net top-of-atmosphere radiation equatorward of 45 degrees latitude (+6 PW).

To approach this, we consider that the Earth is in thermal equilibrium, where the incoming solar radiation must be equal to the outgoing radiation. Using this principle, we can express the net radiation at the top of the atmosphere as the difference between incoming solar radiation and outgoing longwave radiation.

Applying this expression to both hemispheres, we obtain:

6 PW = IN (equatorward of 45 degrees latitude) - OUT (equatorward of 45 degrees latitude)

       = IN (poleward of 45 degrees latitude) - OUT (poleward of 45 degrees latitude)

Let's assume the net top-of-atmosphere radiation poleward of 45 degrees be represented by x. We can then write:

6 PW = x - OUT (poleward of 45 degrees latitude)

x = OUT (poleward of 45 degrees latitude) + 6 PW

However, we encounter a problem in determining the value of outgoing longwave radiation in the polar region. The information provided does not include data for the outgoing longwave radiation poleward of 45 degrees latitude. Consequently, we cannot determine the net top-of-atmosphere radiation poleward of 45 degrees latitude. Therefore, we cannot find a specific answer to the given problem.

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A battery-operated car utilizes a 12.0 V system. Find the charge (in C) the batteries must be able to move in order to accelerate the 790 kg car from rest to 25.0 m/s, make it climb a 2.10 ✕ 10^2 m high hill, and then cause it to travel at a constant 25.0 m/s by exerting a 4.20 ✕ 10^2 N force for an hour.

Answers

The charge the batteries must be able to move in order to accelerate the 790 kg car from rest to 25.0 m/s, make it climb a 2.10 ✕ 10^2 m high hill, and then cause it to travel at a constant 25.0 m/s by exerting a 4.20 ✕ 10^2 N force for an hour is 2.3 x 10^5 C.

The work done by the battery-powered car is obtained from adding the potential and kinetic energy needed to overcome frictional forces.

W= ∆PE + ∆KE + W_friction

(1)Initial potential energy is 0. ∆PE = mgh = (790 kg)(9.8 m/s²)(210 m) = 1.64 x 10^6 J

(2)Final kinetic energy is 0.5mv² = 0.5(790 kg)(25 m/s)² = 4.94 x 10^5 J. ∆KE = 4.94 x 10^5 J

(3)Power is force times velocity.

Power = (4.20 ✕ 10² N)(25 m/s) = 1.05 x 10^4 W

(4)Time is one hour or 3600 s.

(5)The total work is the sum of ∆PE, ∆KE, and work from friction. Work = ∆PE + ∆KE + W_friction = W

(6)Efficiency = work output/work input = (5)/(6)(7)

Power is equal to energy divided by time. P = E/t

(8)Current is power divided by voltage. P = IVI = P/V

(9)Charge is current times time. Q = ItCharge (Q) = Current (I) × time (t) = Power (P) / Voltage (V) × time (t)Charge = 1.05 x 10^4 W / 12.0 V × 3,600 s

Charge = 2.3 x 10^5 C

Therefore, the charge the batteries must be able to move in order to accelerate the 790 kg car from rest to 25.0 m/s, make it climb a 2.10 ✕ 10^2 m high hill, and then cause it to travel at a constant 25.0 m/s by exerting a 4.20 ✕ 10^2 N force for an hour is 2.3 x 10^5 C.

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A 60.0-kg skateboarder starts spinning with an angular velocity of 14 rad/s. By changing the position of her arms, the skater decreases her moment of inertia to half its initial value. What is the final angular velocity (rad/s) of the skater? Give your answer to a decimal.

Answers

The final angular velocity of the skater would be 28 rad/s.

The final angular velocity can be determined by the law of conservation of angular momentum.

As the moment of inertia decreased to half its initial value, the angular velocity of the skateboarder would increase to compensate for the change.

The law of conservation of angular momentum states that the angular momentum of a system is conserved if the net external torque acting on the system is zero.

Initial angular momentum = Final angular momentum

I1 * ω1 = I2 * ω2

Angular momentum is conserved here as there are no external torques acting on the system. The formula is as follows:

I1 * ω1 = 2I2 * ω2

Thus, the final angular velocity of the skater (ω2) can be found using the following formula:

ω2 = (I1 * ω1) / (2 * I2)

where,

I1 = initial moment of inertia = (1/2) * M * R^2= (1/2) * 60 kg * (0.5 m)^2= 7.5 kg.m^2

I2 = final moment of inertia = I1 / 2= 7.5 kg.m^2 / 2= 3.75 kg.m^2

ω1 = initial angular velocity = 14 rad/s

Substituting the given values,

ω2 = (I1 * ω1) / (2 * I2)= (7.5 kg.m^2 * 14 rad/s) / (2 * 3.75 kg.m^2)= 28 rad/s.

Therefore, the final angular velocity of the skater is 28 rad/s.

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A particle is moving along a circle of radius r such that it complete 1 rev in 40 sec. What will be the displacement after 2 mint 20sec?

Answers

The displacement of the particle after 2 minutes 20 seconds cannot be determined without knowing the radius of the circle.

To find the displacement of a particle moving along a circle, we need to determine the angle it has covered in a given time.

Given:

Time taken to complete one revolution (T) = 40 seconds

Radius of the circle (r) = r (not provided)

Time for which we need to find the displacement (t) = 2 minutes 20 seconds = 2 * 60 + 20 = 140 seconds

To find the displacement after 2 minutes 20 seconds, we need to calculate the angle covered by the particle during this time.

One revolution (360 degrees) is completed in T seconds. Therefore, the angle covered in 140 seconds can be calculated as follows:

Angle covered = (Angle covered in one revolution) * (Number of revolutions)

Angle covered = (360 degrees) * (Number of revolutions)

To find the number of revolutions in 140 seconds, we can divide 140 by the time taken for one revolution (40 seconds):

Number of revolutions = 140 / 40 = 3.5

Substituting this value into the equation for the angle covered:

Angle covered = (360 degrees) * (3.5) = 1260 degrees

Now, the displacement of the particle can be found using the formula:

Displacement = 2 * pi * r * (Angle covered / 360 degrees)

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Determine the location and type of image formed by a 4 cm tall object that is located 0.18 m in front of a concave mirror of radius 0.4 m 18.0 cm behind in the mirror, virtual and 2.25x bigger. 180 cm behind in the mirror, virtual and 10.0x bigger. 20.0 cm in front of the mirror, real and 10.0x bigger. 10 cm behind the mirror, virtual and 10.0x bigger.

Answers

A concave mirror is also known as a converging mirror since it has the ability to converge parallel light rays that strike it.

The location and type of image formed by a 4 cm tall object that is located 0.18 m in front of a concave mirror of radius 0.4 m are calculated below:The object distance is given by u = -18 cm, and the radius of curvature of the mirror is given by R = -40 cm (since the mirror is concave).The magnification produced by the mirror is given by the formula M = -v/u where M is the magnification, v is the image distance, and u is the object distance.The position of the image is determined using the mirror formula which is 1/f = 1/v + 1/u where f is the focal length of the mirror.

The focal length is determined using f = R/2. The magnification M is given by M = -v/u. We know that the object height h = 4 cm. Using these formulas and given values, we obtain the following results:

1. 18.0 cm behind the mirror, virtual and 2.25x bigger.

2. 180 cm behind the mirror, virtual and 10.0x bigger.

3. 20.0 cm in front of the mirror, real and 10.0x bigger.

4. 10 cm behind the mirror, virtual and 10.0x bigger.The image is virtual, upright, and larger than the object in all the cases except for case 3. The image is also behind the mirror in all the cases except for case 3.

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A 34.0 μF capacitor is connected to a 60.0 resistor and a generator whose RMS output is 30.3 V at 59.0 Hz. Calculate the RMS current in the circuit. 78.02A Submit Answer Incorrect. Tries 1/12 Previous Tries Calculate the RMS voltage across the resistor. Submit Answer Tries 0/12 Calculate the RMS voltage across the capacitor. Submit Answer Tries 0/12 Calculate the phase angle for the circuit.

Answers

The RMS current in the circuit is 0.499 A. The RMS voltage across the resistor is 18.6 V. The RMS voltage across the capacitor is 21.6 V. The phase angle for the circuit is 37.5 degrees.

To calculate the RMS current in the circuit, we can use Ohm's Law, which states that the RMS current (I) is equal to the RMS voltage (V) divided by the resistance (R). In this case, the RMS voltage is 30.3 V and the resistance is 60.0 Ω. Therefore, the RMS current is I = V/R = 30.3/60.0 = 0.499 A.

To calculate the RMS voltage across the resistor, we can use the formula V_R = I_RMS * R, where I_RMS is the RMS current and R is the resistance. In this case, the RMS current is 0.499 A and the resistance is 60.0 Ω. Therefore, the RMS voltage across the resistor is V_R = 0.499 * 60.0 = 18.6 V.

To calculate the RMS voltage across the capacitor, we can use the formula V_C = I_C * X_C, where I_C is the RMS current and X_C is the reactance of the capacitor. The reactance of the capacitor can be calculated as X_C = 1/(2πfC), where f is the frequency and C is the capacitance. In this case, the frequency is 59.0 Hz and the capacitance is 34.0 μF (which can be converted to 34.0 * 10^-6 F). Therefore, X_C = 1/(2π59.0(34.0*10^-6)) ≈ 81.9 Ω. Substituting the values, we get V_C = 0.499 * 81.9 ≈ 21.6 V.

The phase angle for the circuit can be calculated using the tangent of the angle, which is equal to the reactance of the capacitor divided by the resistance. Therefore, the phase angle θ = arctan(X_C/R) = arctan(81.9/60.0) ≈ 37.5 degrees.

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Asteroids X, Y, and Z have equal mass of 5.0 kg each. They orbit around a planet with M=5.20E+24 kg. The orbits are in the plane of the paper and are drawn to scale.

Answers

Asteroids X, Y, and Z have equal mass of 5.0 kg each. They orbit around a planet with M=5.20E+24 kg.  Therefore, the periods of asteroid X, Y, and Z are 8262.51 s, 10448.75 s, and 12425.02 s, respectively.

The formula for the period of orbit is given by;

T = 2π × √[a³/G(M₁+M₂)]

where T is the period of the orbit, a is the semi-major axis, G is the universal gravitational constant, M₁ is the mass of the planet and M₂ is the mass of the asteroid

Let's calculate the distance between the planet and the asteroids: According to the provided diagram, the distance between the asteroid X and the planet is 6 cm, which is equal to 6.00 × 10⁻² m

Similarly, the distance between the asteroid Y and the planet is 9 cm, which is equal to 9.00 × 10⁻² m

The distance between the asteroid Z and the planet is 12 cm, which is equal to 12.00 × 10⁻² m

Now, let's calculate the period of each asteroid X, Y, and Z.

Asteroid X:T = 2π × √[a³/G(M₁+M₂)] = 2π × √[[(6.00 × 10⁻²)² × (5.20 × 10²⁴)]/(6.67 × 10⁻¹¹ × (5.0 + 5.20 × 10²⁴))] = 8262.51 s

Asteroid Y:T = 2π × √[a³/G(M₁+M₂)] = 2π × √[[(9.00 × 10⁻²)² × (5.20 × 10²⁴)]/(6.67 × 10⁻¹¹ × (5.0 + 5.20 × 10²⁴))] = 10448.75 s

Asteroid Z:T = 2π × √[a³/G(M₁+M₂)] = 2π × √[[(12.00 × 10⁻²)² × (5.20 × 10²⁴)]/(6.67 × 10⁻¹¹ × (5.0 + 5.20 × 10²⁴))] = 12425.02 s

Therefore, the periods of asteroid X, Y, and Z are 8262.51 s, 10448.75 s, and 12425.02 s, respectively.

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The meridional flux of heat is 10 K m/s. The effective diffusivity is 5 m2/s. What is the magnitude of the temperature gradient in K/m?

Answers

The meridional flux of heat is 10 K m/s. The effective diffusivity is 5 m2/s. The magnitude of the temperature gradient is 2 K/m.

To find the magnitude of the temperature gradient in K/m, we can use Fourier's law of heat conduction. This law states that the heat flux is proportional to the temperature gradient. Let's go through the calculations step by step.

Given:

Meridional flux of heat (q) = 10 K m/s

Effective diffusivity (k) = 5 m²/s

According to Fourier's law of heat conduction:

q = -k (ΔT/Δx)

We want to find the magnitude of the temperature gradient (ΔT/Δx). Rearranging the equation, we have:

ΔT/Δx = -q/k

Substituting the given values:

ΔT/Δx = -10/5

ΔT/Δx = -2

Since we are interested in the magnitude of the temperature gradient, we take the absolute value:

|ΔT/Δx| = |-2|

|ΔT/Δx| = 2

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Part C
Just like in the diagram, when Earth was primarily liquid, it separated into layers. What prediction can you make about the
densities of Earth's different layers?

Answers

When the Earth was primarily liquid, it separated into layers. The density of Earth's different layers may be predicted. For instance, it is assumed that the outermost layer, or crust, is less dense than the inner layers.

The Earth's crust is mostly composed of silicates (such as quartz, feldspar, and mica) and rocks, which are less dense than the mantle, core, or outer core.

The mantle is composed of solid rock, which is denser than the Earth's crust.

The core is the most dense layer, and it is composed of a liquid outer core and a solid inner core.

Most of the Earth's layers are composed of different types of rock and minerals.

The layers were formed from the molten material that cooled and solidified.

The Earth's layers are divided into four groups, or spheres, that represent different levels of density.

The lithosphere is the outermost layer, which includes the crust and upper mantle.

The asthenosphere is the soft layer beneath the lithosphere.

The mantle is a solid layer that surrounds the core.

The core is the Earth's central layer, consisting of a liquid outer core and a solid inner core.

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Blocks of mass m 1

=2.6 kg and m 2

=1.4 kg are attached as shown by a massless inelastic cord over identical massless frictionless pulleys. Consider the pulley attached to m 2

as being part of m 2

. Block m 1

is released from rest and allowed to accelerate downward. Find the acceleration of Block 2. Enter your answer in m/s 2
.

Answers

The acceleration of Block 2 is approximately 3.92 [tex]m/s^2[/tex].  The tension in the cord is the same for both blocks. The acceleration of Block 2, we apply Newton's second law to each block individually and consider the tension in the cord.

For Block 1:

The net force acting on Block 1 is the force of gravity acting downward ([tex]m_1[/tex] * g) minus the tension in the cord.

The equation of motion for Block 1 is given by:

[tex]m_1[/tex] * a = [tex]m_1[/tex] * g - T

For Block 2:

The net force acting on Block 2 is the tension in the cord minus the force of gravity acting downward ([tex]m_2[/tex] * g).

The equation of motion for Block 2 is given by:

[tex]m_2[/tex] * a = T - [tex]m_2[/tex] * g

Since the pulley is massless and frictionless, the tension in the cord is the same for both blocks.

We can solve these equations simultaneously to find the acceleration of Block 2.

From the equation for Block 1:

[tex]m_1[/tex] * a = [tex]m_1[/tex] * g - T

T = [tex]m_1[/tex] * g - [tex]m_1[/tex]* a

Substituting T into the equation for Block 2:

[tex]m_2[/tex] * a = ([tex]m_1[/tex] * g - [tex]m_1[/tex] * a) - [tex]m_2[/tex] * g

[tex]m_2[/tex] * a = [tex]m_1[/tex] * g - [tex]m_1[/tex] * a - [tex]m_2[/tex] * g

[tex]m_2[/tex] * a + [tex]m_1[/tex] * a = [tex]m_1[/tex] * g - [tex]m_2[/tex] * g

a * ([tex]m_2[/tex] + [tex]m_1[/tex]) = g * ([tex]m_1[/tex] - [tex]m_2[/tex])

a = g * ([tex]m_1[/tex] - [tex]m_2[/tex]) / ([tex]m_2[/tex] + [tex]m_1[/tex])

Substituting the given values:

a = 9.8 * (2.6 - 1.4) / (1.4 + 2.6)

a ≈ 3.92 [tex]m/s^2.[/tex]

The acceleration of Block 2 is approximately 3.92 [tex]m/s^2.[/tex]

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A spherical liquid drop of radius R has a capacitance of C = 4me,R. If two such drops combine to form a single larger drop, what is its capacitance? A. 2 C B. 2 C C. 2¹3 C D. 2¹3 €

Answers

The answer is B. 2 C. The capacitance of the combined drop is twice the capacitance of each individual drop. When two identical spherical drops combine to form a larger drop, the resulting capacitance can be calculated using the concept of parallel plate capacitors.

The capacitance of a parallel plate capacitor is given by the formula:

C = ε₀ * (A / d),

where C is the capacitance, ε₀ is the permittivity of free space, A is the area of the plates, and d is the separation distance between the plates.

In this case, the spherical drops can be approximated as parallel plates, and when they combine, the resulting larger drop will have a larger area but the same separation distance.

Let's assume the radius of each individual drop is R and the radius of the combined drop is R'.

The capacitance of each individual drop is given as C = 4πε₀R.

When the drops combine, the resulting drop will have a larger radius R'. The area of the combined drop will be the sum of the areas of the individual drops, which is given by:

A' = 2 * (πR²) = 2πR².

Since the separation distance remains the same, the capacitance of the combined drop can be calculated as:

C' = ε₀ * (A' / d) = ε₀ * (2πR² / d).

Comparing this with the capacitance of each individual drop (C = 4πε₀R), we can see that the capacitance of the combined drop is:

C' / C = (2πR² / d) / (4πR) = (πR / 2d).

Therefore, the capacitance of the combined drop is given by:

C' = (πR / 2d) * C.

Substituting the given capacitance C = 4me,R, we get:

C' = (πR / 2d) * 4me,R.

Simplifying this expression, we find that the capacitance of the combined drop is:

C' = 2me,R.

Therefore, the answer is B. 2 C. The capacitance of the combined drop is twice the capacitance of each individual drop.

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A neutron (mass = 1.0088u) decays into a proton (mass = 1.0072u) and electron (mass = 0.00055u) and some more particles. How much energy will be contained in all the particles produced. 1u = 931.5 MeV/c².

Answers

The total energy contained in all the particles produced is 2.225 MeV.

The mass defect (Δm) of the neutron is equal to the sum of the mass of the proton and electron minus the mass of the neutron:

Δm = (1.0072 + 0.00055) u - 1.0088 u= 0.00095 u

Now, the energy released (E) is obtained by using the formula:

E = Δm × c²= 0.00095 u × (931.5 MeV/c²/u) × c²= 0.885925 MeV

To find the total energy contained in all the particles produced, add the rest mass energies of the proton and electron to the energy released:

E_total = E + (m_proton × c²) + (m_electron × c²)

= 0.885925 MeV + (1.0072 u × 931.5 MeV/c²/u) + (0.00055 u × 931.5 MeV/c²/u)

= 2.225 MeV

Therefore, the total energy contained in all the particles produced is 2.225 MeV.

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A train decelerates uniformly at a rate of 2 m/s2 and comes to a stop in 10 seconds. Find the initial velocity of the train.

Answers

The initial velocity of the train is 20m/s when the train decelerates uniformly at a rate of 2m/s2. It means that initially, at time = 0 seconds, the train was moving with a velocity of 20m/s.

We know that,

v = u +at

where, v = final velocity

u = initial velocity

a = acceleration

t = time taken

In this case, as the train is decelerating we will use a negative sign with acceleration.

Substituting the values we get,

v = u + (-2)(10)

v will be equal to zero, as the train comes to a stop.

0 = u - 20

u = 20 m/s

Hence, the initial velocity of the train is 20m/s when the train decelerates uniformly at a rate of 2m/s2 and comes to a stop in 10 seconds.

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An aircraft has a cruising speed of 100 m/s. On this particular day, a wind is blowing from the west at 75.0 m/s. If the plane were to fly due north, what would be the velocity relative to the ground? An aircraft has a cruising speed of 100 m/s. On this particular day, a wind is blowing from the west at 75.0 m/s. If the pllot wishes to have a resultant direction of due north, in what direction should the plane be pointed? What will be the plane's displacement in 1.25 h ?

Answers

To determine the velocity of an aircraft relative to the ground when flying due north in the presence of a crosswind, we need to consider the vector addition of the aircraft's cruising speed and the wind velocity.

The resultant velocity will have both magnitude and direction. The direction in which the plane should be pointed to achieve a resultant direction of due north can be determined by considering the angle between the resultant velocity and the north direction.

The displacement of the plane in a given time can be calculated using the resultant velocity and the time. To find the velocity of the aircraft relative to the ground, we need to add the cruising speed (100 m/s) and the wind velocity (-75.0 m/s) as vectors. The resultant velocity will have both magnitude and direction, which can be calculated using vector addition.

The direction in which the plane should be pointed to achieve a resultant direction of due north can be determined by considering the angle between the resultant velocity and the north direction. This angle can be found using trigonometry.

To calculate the plane's displacement in 1.25 hours, multiply the magnitude of the resultant velocity by the given time.

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Predict/Calculate Figure 23-42 shows a zero-resistance rod sliding to the right on two zero- resistance rails separated by the distance L = 0.500 m. The rails are connected by a 10.0Ω resistor, and the entire system is in a uniform magnetic field with a magnitude of 0.750 T. (a) Find the speed at which the bar must be moved to produce a current of 0.175 A in the resistor. (b) Would your answer to part (a) change if the bar was moving to the left instead of to the right? Explain.

Answers

(a) The bar must be moved at a speed of approximately 0.467 m/s to produce a current of 0.175 A in the resistor. (b) The answer to part (a) would not change if the bar was moving to the left instead of to the right

To find the speed at which the bar must be moved to produce a current of 0.175 A in the resistor, we can use the formula for the induced electromotive force (emf) in a moving conductor within a magnetic field. The induced emf is given by the equation:

emf = B * L * v,

where B is the magnetic field strength, L is the length of the conductor, and v is the velocity of the conductor. In this case, the emf is equal to the voltage across the resistor, which is given by Ohm's law as:

emf = I * R,

where I is the current flowing through the resistor and R is the resistance. By equating the two expressions for emf, we have:

B * L * v = I * R.

Substituting the given values, we have:

(0.750 T) * (0.500 m) * v = (0.175 A) * (10.0 Ω).

Simplifying the equation, we find:

v = (0.175 A * 10.0 Ω) / (0.750 T * 0.500 m).

Evaluating the right-hand side of the equation gives us the speed:

v ≈ 0.467 m/s.

The answer to part (a) would not change if the bar was moving to the left instead of to the right. This is because the magnitude of the induced emf depends only on the relative velocity between the conductor and the magnetic field, not the direction of motion. As long as the velocity of the bar remains constant, the induced emf and the resulting current will be the same regardless of whether the bar is moving to the left or to the right. The direction of the current, however, will be reversed if the bar moves in the opposite direction, but the magnitude of the current will remain the same. Therefore, the speed required to produce the desired current will be the same regardless of the direction of motion.

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A 3-phase electrical device connected as a Y circuit with each phase having a resistance of 25 ohms. The line voltage is 230 volts.
b. How much power does each phase of the circuit consume?

Answers

A 3-phase electrical device connected as a Y circuit with each phase having a resistance of 25 ohms. The line voltage is 230 volts. The power consumed by each phase of the circuit is 3.99 kW.

Given that a 3-phase electrical device connected as a Y circuit with each phase having a resistance of 25 ohms. The line voltage is 230 volts. We are to calculate the power consumed by each phase of the circuit.

The power consumed by each phase of the circuit is given by;P= (3VL²)/ (RL) where; P= power consumed by each phase VL = line voltage = 230VRL = resistance of each phase = 25Ω Substituting the values above in the formula; P = (3 × (230V)²) / (25Ω)P = 3.99 kW (approx). Therefore, the power consumed by each phase of the circuit is 3.99 kW.

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How much energy must be removed from the system to turn liquid copper of mass 1.5 kg at 1083 degrees celsius to solid copper at 1000 degrees celsius? Watch Another a) −278×10 ∧
3 J b) −2.49×10 ∧
5 J c) 2.25×10 ∧
3 J d) −3.67×10 ∧
4 J e) 9.45×10 ∧
4 J A concrete brick wall has a thickness of 6 cm, a height of 3 m, and a width of 6 m. The rate at which energy is transferred outside through the wall is 160 W. If the temperature inside is 22 degrees C. What is the temperature outside? a) 5.67 degrees C b) 15.2 degrees C c) −19.8 degrees C d) 23.8 degrees C e) 21.4 degrees C

Answers

To turn liquid copper of mass 1.5 kg at 1083 degrees Celsius to solid copper at 1000 degrees Celsius, approximately -2.49×10^5 J of energy must be removed from the system. For the concrete brick wall, the temperature outside is approximately 5.67 degrees Celsius.

When a substance undergoes a phase change, energy needs to be removed or added to the system to facilitate the transition. In the case of turning liquid copper to solid copper, we need to calculate the energy that must be removed. The amount of energy can be calculated using the equation:

Q = mcΔT,

where Q represents the energy, m is the mass of the substance, c is the specific heat capacity, and ΔT is the change in temperature. Since copper has a specific heat capacity of approximately 390 J/kg·°C, we can calculate the energy required as follows:

Q = (1.5 kg) × 390 J/kg·°C × (1083 °C - 1000 °C) = -2.49×10^5 J.

Hence, approximately -2.49×10^5 J of energy must be removed from the system to turn liquid copper at 1083 degrees Celsius to solid copper at 1000 degrees Celsius.

For the concrete brick wall, the rate of energy transfer through the wall is given as 160 W. We can use the formula:

P = kA(ΔT/Δx),

where P is the power, k is the thermal conductivity of the material, A is the area, ΔT is the temperature difference, and Δx is the thickness. Rearranging the equation, we have:

ΔT = (PΔx)/(kA).

Plugging in the values, where the thickness (Δx) is 6 cm (or 0.06 m), the height (A) is 3 m × 6 m = 18 m², the power (P) is 160 W, and the thermal conductivity of concrete is approximately 1.7 W/(m·°C), we can calculate the temperature difference:

ΔT = (160 W × 0.06 m)/(1.7 W/(m·°C) × 18 m²) ≈ 5.67 °C.

Therefore, the temperature outside is approximately 5.67 degrees Celsius.

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An RC circuit has an unknown resistance and an initially uncharged capacitor of 666 x 10F When connected to a source potential, it takes the capacitor 27.6 s to become 85.6 % fully charged. What is the resistance of the circuit? Enter a number rounded to the nearest 100 place.

Answers

The resistance of the RC circuit is approximately 267 Ω, rounded to the nearest hundredth.

To find the resistance of the RC circuit, we can use the time constant formula for charging a capacitor in an RC circuit:

τ = RC

where τ is the time constant, R is the resistance, and C is the capacitance.

We are given that it takes the capacitor 27.6 s to become 85.6% fully charged. In terms of the time constant, this corresponds to approximately 1 time constant (τ):

t = 1τ

27.6 s = 1τ

Since the capacitor is 85.6% charged, the remaining charge is 14.4%:

Q = 0.144Qmax

Now we can rearrange the time constant formula to solve for the resistance:

R = τ / C

Substituting the given values:

R = 27.6 s / (0.144 × 666 × 10^-6 F)

R = 27.6 s / (0.144 × 666 × 10^-6 F)

R = 27.6 s / (0.144 × 666 × 10^-6 F)

R = 27.6 s / (0.144 × 666 × 10^-6 F)

R = 27.6 s / (0.144 × 666 × 10^-6 F)

R = 27.6 s / (0.144 × 666 × 10^-6 F)

R = 27.6 s / (0.144 × 666 × 10^-6 F)

R = 27.6 s / (0.144 × 666 × 10^-6 F)

R ≈ 267 Ω

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Calculate the requirement for the lathe's power in watts, if the specific energy forthe machining of the workpiece is 5 Ws/mm3 can u summarize how Angelina Jolie has traveled worldwide, assisting refugees and raising money to fight global poverty. The Jolie-Pitt Foundation, which focuses on fighting against extreme poverty in rural areas, was founded as a means of helping humanitarian efforts by raising millions of dollars in support. 03 Select True or False for the following statements: F1. F2 Flash floods are characterized by pure water because they happen within short periods, hence no pollution occurs. Flood non-exceedance probability is the probability of observing flow 2 specified value Elongated watersheds result from steep slopes and equant watersheds result from gentle slopes T3.6 F4.1 ) Water from snowmelt is considered as a non-traditional water resource. 04 Select the most correct anses fass If the wavelength of a light source in air is 536nm, what would it's wavelength (in nm) be in Cubic Zirconia (n=2.174)? what is x^2+2x=6 when solved in QUADRATIC FORMULA? Select all the true statements about waveguides. The dielectric inside a waveguide compresses the wavelength and raises the frequency of a wave inside it. The physical dimensions of the waveguide (i.e. 'a' and 'b') are the only design component to consider when designing a waveguide For a given frequency, dielectric-filled waveguides are typically smaller than hollow ones. Waveguides mostly mitigate spreading loss There are standing waves and travelling waves present in a waveguide. Discuss the strengths of using the payback period as the method to evaluate an investment project. Explain whether this method would give a good indication of the project's risk or not. The length of Harry's forearm (elbow to wrist) is 25 cm and the length of his upper arm (shoulder to elbow) is 20 cm. If Harry flexes his elbow such that the distance from his wrist to his shoulder is 40 cm, find the angle of flexion of Harry's elbow. main topic is the determination of magnetic forces and torques answer in your own words: How useful do you think it is to determine the magnetic forces on a current-carrying conductor and the torque on a current-carrying loop? can you answer in a paragraph of 7 lines explaining please translate The natives in Jamestown can be harsh and changes a lot depending on the time of the year. The_________ are very hot and the ____________________ are very cold. This can make it very hard to grow _______________ for food depending on the time of the year. A steel tape 50 m long is of standard length at 18C. This tape was usedto lay out a 500 m length on the ground. If the temperature at the time oftaping was 30C, what is the correction per tape length due totemperature?