Each pulse produced by an argon-fluoride excimer laser used in PRK and LASIK ophthalmic surgery lasts only 10.0 ns but delivers an energy of 2.50 mJ.
part a: What is the power produced during each pulse?
part b: If the beam has a diameter of 0.850 mm, what is the average intensity of the beam during each pulse?
part c: If the laser emits 55 pulses per second, what is the average power it generates?

Answers

Answer 1

Part a: The power produced during each pulse can be calculated by dividing the energy (2.50 mJ) by the duration of the pulse (10.0 ns). This yields a power of 250 kW.

Part b: The average intensity of the beam during each pulse can be calculated by dividing the power (250 kW) by the area of the beam (0.850 mm). This yields an intensity of 294.12 MW/m^2.

Part c: The average power generated by the laser can be calculated by multiplying the number of pulses (55) per second by the power of each pulse (250 kW). This yields an average power of 13.75 MW.

Therefore, the argon-fluoride excimer laser produces a pulse of energy 2.50 mJ, lasting 10.0 ns, with a power of 250 kW. The beam has an average intensity of 294.12 MW/m^2 and an average power of 13.75 MW when it emits 55 pulses per second. This laser is commonly used in PRK and LASIK ophthalmic surgery due to its ability to produce a very short pulse of high intensity and power.

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Related Questions

Within a star like the Sun, there are several forces at work. Classify the following forces as directed outward or directed inward. Not all items will be used
Directed outward
Directed inward
Answer Bank:
thermal pressure, gravitational force, systematic electrical force

Answers

The Directed outward is thermal pressure and the Directed inward is the gravitational force, and systematic electrical force.

Is the sun an outside force?

The sun's attraction is the external force acting on both the earth and the moon, but gravity causes the gravitational attraction of the earth and moon.

What is the solar outward force?

Pressure generates an outward force within the Sun, from the high-pressure core to the low-pressure surface. In contrast, gravity creates an inward force. A system is said to be in hydrostatic equilibrium when the force due to pressure exactly balances the force due to gravity.

What opposing inward and outward forces exist within a star?

Any main sequence star can be described as a dense gas/fluid in hydrostatic equilibrium. Gravity is balanced by the outward-acting forces of gas pressure and radiation pressure.

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In a single slit diffraction experiment, if the slit is narrowed, the distances between adjacent diffraction minima ______. O grow farther apart. O remain unchanged. O grow closer together.

Answers

The correct option is A, which states that in a single slit diffraction experiment, increasing slit narrowness would result in increasing separation between adjacent diffraction minima.

Single slit diffraction is a phenomenon that occurs when light passes through a narrow slit and spreads out into a wider pattern of bright and dark fringes. The diffraction pattern is caused by the interference of light waves that pass through different parts of the slit and interfere constructively or destructively at different points in space.

The width of the slit and the wavelength of the light determine the diffraction pattern, with narrower slits and shorter wavelengths producing wider patterns. The pattern consists of a central bright fringe, surrounded by a series of alternating bright and dark fringes. Single slit diffraction is an important concept in physics and optics, and has applications in areas such as spectroscopy, microscopy, and astronomy.

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Complete Question:-

In a single slit diffraction experiment, if the slit is narrowed, the distances between adjacent diffraction minima ______.

a. grow farther apart. b. remain unchanged. c grow closer together.

what is the intensity at a point on the circle at an angle of 4.60 ∘ from the centerline? express your answer in watts per square meter.

Answers

The intensity at a point on the circle at an angle of 4.60 ∘ from the centerline is I = I0×0.9976 watts per square meter.

What is centerline?

Centerline is a term used to refer to a line that is equidistant from two opposite edges of a given object or area. It is a line that divides the object or area in two equal halves, running from one end to the other. Centerline can be found in a variety of objects, such as floors, walls, roofs, and roads, among many others. It is a line of symmetry, and is used to ensure that objects are properly aligned or balanced.

The intensity at a point on a circle at an angle of 4.60 ∘ from the centerline can be calculated by using the formula I = I0×cos(θ), where I0 is the intensity at the centerline and θ is the angle from the centerline.

In this case, I = I0×cos(4.60) = I0×0.9976.

Therefore, the intensity at a point on the circle at an angle of 4.60 ∘ from the centerline is I = I0×0.9976 watts per square meter.

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a solenoid 99cm long has 450 turns and a radius of 3.14 cm. if it carries a current of 3.05 a, find th emagnetic field along the axis at its center

Answers

the magnetic field along the axis at the centre of the solenoid is approximately 5.47 × 10⁻⁴ T.

The magnetic field along the axis at the centre of a solenoid can be calculated using the formula:

B = μ₀nI

Where B is the magnetic field, μ₀ is the permeability of free space (4π × 10⁻⁷ T m/A), n is the number of turns per unit length (n = N/L), and I is the current.

In this case, the length of the solenoid is 99 cm, the radius is 3.14 cm, and the current is 3.05 A. So we can calculate the number of turns per unit length as:

n = N/L = 450/0.99 = 454.5 turns/m

Now we can substitute these values into the formula:

B = μ₀nI = (4π × 10⁻⁷ T m/A)(454.5 turns/m)(3.05 A) ≈ 5.47 × 10⁻⁴ T

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A landing craft with mass 12,500 kg is in a circular orbit 6.75×10^5 m above the surface of a planet. The period of the orbit is 5600 s. The astronauts in the lander measure the diameter of the planet to be 9.60×10^6 m. The lander sets down at the north pole of the planet.
a) What is the weight w of an 85.6 kg astronaut as he steps out onto the planet's surface? Express your answer with the appropriate units.

Answers

The result will be the weight of the astronaut on the planet's surface, expressed in the appropriate units (such as newtons, N).

What is Mass?

Mass is a fundamental property of matter that represents the amount of matter contained in an object. It is a measure of the inertia of an object, which is the resistance of an object to changes in its motion. Mass is typically measured in kilograms (kg) or other appropriate units in the metric system.

where G is the gravitational constant, M_planet is the mass of the planet, and R_planet is the radius of the planet. Since the diameter is given, we can calculate the radius as half of the diameter:

R_planet = d/2

Now we can plug in the given values to calculate the acceleration due to gravity (g) at the planet's surface.

G = 6.67430 × [tex]10^{-11}[/tex] [tex]m^{3}[/tex]/(kg·[tex]s^{2}[/tex]) (gravitational constant)

M_planet = m_craft (mass of landing craft)

R_planet = d/2 (radius of planet)

Substituting the values:

(6.67430 × [tex]10^{-11}[/tex][tex]m^{3}[/tex]/(kg·[tex]s^{2}[/tex])) * (12,500 kg) / [tex](4.80×10^6 m) ^{2}[/tex]

Now we can calculate the weight (w) of the astronaut by multiplying the mass of the astronaut (m) with the calculated acceleration due to gravity (g).

w = m * g

= 85.6 kg * [(6.67430 × [tex]10^{-11}[/tex] [tex]m^{3}[/tex]/(kg·[tex]s^{2}[/tex])) * (12,500 kg) / [tex](4.80×10^6 m) ^{2}[/tex]]

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The result will be the weight of the astronaut on the planet's surface, expressed in the appropriate units (such as newtons, N).

What is Mass?

Mass is a fundamental property of matter that represents the amount of matter contained in an object. It is a measure of the inertia of an object, which is the resistance of an object to changes in its motion. Mass is typically measured in kilograms (kg) or other appropriate units in the metric system.

where G is the gravitational constant, M_planet is the mass of the planet, and R_planet is the radius of the planet. Since the diameter is given, we can calculate the radius as half of the diameter:

R_planet = d/2

Now we can plug in the given values to calculate the acceleration due to gravity (g) at the planet's surface.

G = 6.67430 × [tex]10^{-11}[/tex] [tex]m^{3}[/tex]/(kg·[tex]s^{2}[/tex]) (gravitational constant)

M_planet = m_craft (mass of landing craft)

R_planet = d/2 (radius of planet)

Substituting the values:

(6.67430 × [tex]10^{-11}[/tex][tex]m^{3}[/tex]/(kg·[tex]s^{2}[/tex])) * (12,500 kg) / [tex](4.80×10^6 m) ^{2}[/tex]

Now we can calculate the weight (w) of the astronaut by multiplying the mass of the astronaut (m) with the calculated acceleration due to gravity (g).

w = m * g

= 85.6 kg * [(6.67430 × [tex]10^{-11}[/tex] [tex]m^{3}[/tex]/(kg·[tex]s^{2}[/tex])) * (12,500 kg) / [tex](4.80×10^6 m) ^{2}[/tex]]

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The formula for pulse duration is number of cycles in a pulse multiplied by: a. Frequency b. Period c. Wavelength d. Amplitude 17.

Answers

The formula for pulse duration is the number of cycles in a pulse multiplied by the period so the correct option is (b).

This is because pulse duration is the amount of time it takes for one pulse to occur, and the period is the time it takes for one cycle to occur. Therefore, multiplying the number of cycles in a pulse by the period gives us the total time duration of the pulse. The other options, frequency (a), wavelength (c), and amplitude (d), are not directly related to pulse duration.

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determine the moment of inertia ixx of the sphere in appendix a ex- pressed in terms of its total mass, m. the material has a constant density rho and a uniform mass distribution.

Answers

The moment of inertia (Ixx) of the sphere in Appendix A expressed in terms of its total mass (m), with constant density (rho) and uniform mass distribution, is

  Ixx = (8/15) * pi * r^5 * rho

To determine the moment of inertia (Ixx) of the sphere in Appendix A expressed in terms of its total mass (m), we will consider the sphere's constant density (rho) and uniform mass distribution. Here's a step-by-step explanation:

1. First, let's find the mass of the sphere. Mass (m) can be calculated using the formula:
  m = (4/3) * pi * r^3 * rho
  where r is the radius of the sphere.

2. Now, let's calculate the moment of inertia (Ixx) of the sphere. For a solid sphere, the moment of inertia along any axis passing through its center can be expressed as:
  Ixx = (2/5) * m * r^2

3. We want to express Ixx in terms of the total mass (m). To do this, we can substitute the mass equation from step 1 into the moment of inertia equation from step 2:
  Ixx = (2/5) * [(4/3) * pi * r^3 * rho] * r^2

4. Finally, simplify the equation:
  Ixx = (8/15) * pi * r^5 * rho

So, the moment of inertia (Ixx) of the sphere in Appendix A expressed in terms of its total mass (m), with constant density (rho) and uniform mass distribution, is:
Ixx = (8/15) * pi * r^5 * rho

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Two boxes are connected by a light string that passes over a light, frictionless pulley. One box rests on a frictionless ramp that rises at 30.0 degrees above the horizontal (see Figure 5.50), and the system is released from rest. (a) Make a free-body diagram of each box. (b) Which way will the 50.0 kg box move, up the pane or down the plane? Or will it even move at all? Show why or why not. (c) Find the acceleration of each box.

Answers

(a) To make a free-body diagram of each box, we need to consider the forces acting on each box.

The box on the ramp will have the force of gravity acting downward, which can be resolved into components parallel and perpendicular to the ramp. The parallel component will act down the ramp, while the perpendicular component will act normal to the ramp. The box will also experience a force of friction acting up the ramp, which will be equal and opposite to the component of the force of gravity acting down the ramp. The box on the other side of the pulley will have only the force of gravity acting downward.

(b) The direction in which the 50.0 kg box moves will depend on the net force acting on it. If the force down the ramp due to the component of the force of gravity is greater than the force up the ramp due to friction, then the box will move down the ramp. If the force up the ramp due to friction is greater than the force down the ramp due to gravity, then the box will move up the ramp. If the forces are balanced, then the box will not move at all.

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At a speed of 0.88 c, a spaceship travels to a star that is 8.8 ly distant. According to a scientist on earth, how long does the trip take? According to a scientist on the spaceship, how long does the trip take? According to the scientist on the spaceship, what is the distance traveled during the trip? At what speed do observers on the spaceship see the star approaching them?

Answers

The distance traveled and the amount of time is taken into account to determine an object's average speed. Speed is calculated as follows: speed = distance * time.

According to the theory of relativity, time is relative and depends on the observer's frame of reference. Therefore, the time taken for the trip to the star would be different for the scientist on Earth and the scientist on the spaceship.

For the scientist on Earth, using the equation time = distance/speed, the time taken for the trip would be:
Time = 8.8 ly / 0.88 c = 10 years.

However, for the scientist on the spaceship, time dilation occurs due to the high speed at which the spaceship is traveling. The formula for time dilation is: t' = t / sqrt(1 - v^2/c^2)

Where t' is the time experienced by the observer on the spaceship, t is the time experienced by the observer on Earth, v is the velocity of the spaceship (in this case, 0.88 c), and c is the speed of light.

Putting in the values, we get:
t' = 10 / sqrt(1 - 0.88^2) = 5 years

Therefore, according to the scientist on the spaceship, the trip takes 5 years.

The distance traveled during the trip can be calculated using the same equation as before:
distance traveled = speed x time = 0.88 c x 5 years = 4.4 ly

Lastly, the speed at which observers on the spaceship see the star approaching them can be calculated using the relativistic Doppler effect formula:
f' = f / sqrt (1 - v^2/c^2)
Where f' is the observed frequency, f is the emitted frequency, and v and c are as before.

Assuming the star emits light at a frequency of 550 THz, the observed frequency by observers on the spaceship would be:
f' = 550 THz / sqrt (1 - 0.88^2) = 1237 THz

Therefore, observers on the spaceship would see the star approaching them at a frequency of 1237 THz.

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The distance traveled and the amount of time is taken into account to determine an object's average speed. Speed is calculated as follows: speed = distance * time.

According to the theory of relativity, time is relative and depends on the observer's frame of reference. Therefore, the time taken for the trip to the star would be different for the scientist on Earth and the scientist on the spaceship.

For the scientist on Earth, using the equation time = distance/speed, the time taken for the trip would be:
Time = 8.8 ly / 0.88 c = 10 years.

However, for the scientist on the spaceship, time dilation occurs due to the high speed at which the spaceship is traveling. The formula for time dilation is: t' = t / sqrt(1 - v^2/c^2)

Where t' is the time experienced by the observer on the spaceship, t is the time experienced by the observer on Earth, v is the velocity of the spaceship (in this case, 0.88 c), and c is the speed of light.

Putting in the values, we get:
t' = 10 / sqrt(1 - 0.88^2) = 5 years

Therefore, according to the scientist on the spaceship, the trip takes 5 years.

The distance traveled during the trip can be calculated using the same equation as before:
distance traveled = speed x time = 0.88 c x 5 years = 4.4 ly

Lastly, the speed at which observers on the spaceship see the star approaching them can be calculated using the relativistic Doppler effect formula:
f' = f / sqrt (1 - v^2/c^2)
Where f' is the observed frequency, f is the emitted frequency, and v and c are as before.

Assuming the star emits light at a frequency of 550 THz, the observed frequency by observers on the spaceship would be:
f' = 550 THz / sqrt (1 - 0.88^2) = 1237 THz

Therefore, observers on the spaceship would see the star approaching them at a frequency of 1237 THz.

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A proton (mass m = 1.67 x 10-27 kg) is being accelerated along a straight line at 6.2 x 1012 m/s2 in a machine. If the proton has an initial speed of 7.9 x 106 m/s and travels 4.4 cm, what then is (a) its speed and (b) the increase in its kinetic energy?

Answers

(a) The final speed of the proton is 7.88 x [tex]10^7[/tex] m/s.

(b) The increase in its kinetic energy is 8.22 x [tex]10^-^1^3[/tex] J.

How to find the final speed of the proton?

The final speed of a proton can be calculated using the principles of conservation of energy and momentum, taking into account the initial velocity, mass, and potential energy of the proton, as well as any external forces acting on it during its motion.

(a) Final speed of the proton can be calculated using the kinematic equation:

v² = u² + 2as

v² = (7.9 x [tex]10^6[/tex] m/s)² + 2(6.2 x [tex]10^1^2[/tex] m/s²)(0.044 m)

v² = 6.21 x [tex]10^1^4[/tex] m²/s²

v = √(6.21 x [tex]10^1^4[/tex]) ≈ 7.88 x [tex]10^7[/tex] m/s

Therefore, the final speed of the proton is approximately 7.88 x [tex]10^7[/tex] m/s.

How to find increase in its kinetic energy?

(b) The increase in kinetic energy can be calculated using the formula:

ΔK = (1/2)mv² - (1/2)mu²

ΔK = (1/2)(1.67 x [tex]10^-^2^7[/tex] kg)(7.88 x [tex]10^7[/tex] m/s)² - (1/2)(1.67 x [tex]10^-^2^7[/tex] kg)(7.9 x [tex]10^6[/tex] m/s)²

ΔK = 8.22 x [tex]10^-^1^3[/tex] J

Therefore, the increase in kinetic energy of the proton is approximately 8.22 x [tex]10^-^1^3[/tex] J.

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A 1.3 kg bicycle tire with a radius of 30 cm rotates with an angular speed of 155 rpm. Find the angular momentum of the tire, assuming it can be modeled as a hoop. Answer needs to be in kg x m^2/s.

Answers

The Angular momentum of the bicycle tire is 1.90 kg x [tex]m^2/s[/tex].

The formula for angular momentum of a rotating object is L = Iω, where L is the angular momentum, I is the moment of inertia, and ω is the angular velocity.
For a hoop, the moment of inertia is I = [tex]MR^2[/tex], where M is the mass of the object and R is the radius.
Using this formula, we can find the moment of inertia of the bicycle tire:

I = [tex](1.3 kg)(0.3 m)^2[/tex] = 0.117 kg x [tex]m^2[/tex]

Next, we convert the angular speed from rpm to rad/s:

ω = (155 rpm) x (2π/60) = 16.22 rad/s

Finally, we can calculate the angular momentum:

L = Iω = (0.117 kg x [tex]m^2[/tex])(16.22 rad/s) = 1.90 kg x [tex]m^2/s[/tex]

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find a general solution to the given differential equation. 25w''+60w'+36w=0 A general solution is w(t) =____

Answers

The general solution is w(t) = C₁e^(-6t/5) + C₂te^(-6t/5).

To find the general solution to the given differential equation, 25w'' + 60w' + 36w = 0, we will first solve the characteristic equation for the given homogeneous linear differential equation.

The characteristic equation is:
25r^2 + 60r + 36 = 0

By solving for r, we can determine the general solution. In this case, we can factor the equation:
(5r + 6)(5r + 6) = 0

Since both factors are the same, we have a repeated root:
r = -6/5

Now, we can construct the general solution using the repeated root:
w(t) = C₁e^(-6t/5) + C₂te^(-6t/5)

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A supernova is
A. a giant explosion caused by the iron core a star collapsing
B. a giant explosion which happens when a white dwarf exceeds 1.44 solar masses
C. the birth of a star
D. Both A and B
E. None of the above

Answers

Answer: D. Both A and B

Explanation: A supernova is a giant explosion caused by the iron core of a star collapsing. A supernova is also a giant explosion which happens when a white dwarf exceeds 1.44 solar masses.

A supernova obviously is not the birth of the star.

Object A has density rho1. Object B has the same shape and dimensions as object A, but it is three times as massive. Object B has density rho2 such that
rho2 = rho1 / 3
rho2 = rho1 / 2
rho2 = 3 rho1
rho2 = 2 rho1

Answers

Object B has density rho₂ such that  rho₂ = 3 rho₁. From the given options, the third option is the correct one for the density.

Why is the density of the object B 3 times the first density?

The density of a particular thing or object is specified as its mass per unit volume. Let's assume that object A has a mass of m and a volume of V. Therefore, its density rho₁ is given by:

rho₁ = m/V

Now, object B has the same form and proportions as physical object A, but it is three times as big as the object A. This means that the mass of object B is 3m. Since the two objects have the same shape and dimensions, they have the same volume V. Therefore, the density rho₂ of object B is given by:

rho₂ = (3m)/V

Substituting m/V from the equation for rho₁, we get:

rho₂ = 3 rho₁

Therefore, the correct answer is rho₂= 3 rho₁.

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if the correlation coefficient for x and y is calculated to be .47, what is the proportion of variance accounted for?

Answers

The proportion of variance accounted for is 22.09%.

A correlation coefficient is a number between -1 and 1 that tells you the strength and direction of a relationship between variables.

In other words, it reflects how similar the measurements of two or more variables are across a dataset.

To find the proportion of variance accounted for, you'll need to square the correlation coefficient between x and y. In this case, the correlation coefficient is 0.47.

1: Square the correlation coefficient (0.47^2).
0.47 * 0.47 = 0.2209

2: Convert the result into a percentage.
0.2209 * 100 = 22.09%

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the air pressure in the tires of a 980-kgkg car is 3.4×105n/m23.4×105n/m2.

Answers

The air pressure in the tires of a 980-kg car is 3.4×105 N/m2. It is important to maintain proper air pressure in car tires as it affects the handling, performance, and fuel efficiency of the vehicle.

The force that the Earth's atmosphere applies to the ground below is known as air pressure, commonly referred to as atmospheric pressure. The air molecules' gravitational attraction towards the Earth is what generates this pressure. The air pressure and density are increased due to the compression of the air molecules nearest to the Earth's surface. A barometer is often used to measure air pressure since it measures the force the atmosphere exerts on a unit of surface area. The pascal (Pa) is the accepted unit of measurement for air pressure, however millibars (mb) and inches of mercury (inHg) are also frequently used.

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how is increasing the mass of the pith balls similar to increasing the value of g

Answers

Increasing the mass of the pith balls and increasing the value of g both result in an increase in the force of gravity acting on the system.

In the case of increasing the mass of the pith balls, the gravitational force of attraction between the two balls increases because the mass is directly proportional to the gravitational force. As a result, the balls will be pulled towards each other with a greater force.

Similarly, increasing the value of g will also increase the force of attraction between the pith balls. This is because the force of gravity is directly proportional to the value of g. If g is increased, the gravitational force of attraction between the two balls will also increase.

Therefore, both increasing the mass of the pith balls and increasing the value of g will result in a greater force of attraction between the balls. This relationship can be observed in experiments involving pith balls and can be used to investigate various properties related to gravity and electrostatics.

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An x-ray has a wavelength
of 2.2 x 10-11 m. What is
the frequency of the x-ray?
A. 0.0066 Hz
B. 3.0x 10-¹¹ Hz
C. 1.4 x 10¹ Hz
D. 7.3 x 10-20 Hz

Answers

An x-ray has a wavelength of 2.2 x 10-11 m.  the frequency of the x-ray 1.4 x 10¹ Hz.

What does wavelength mean in plain English?

A waveform signal that is carried in space or via a wire has a wavelength, which is the separation between two identical locations adjacent crests in adjacent cycles. Its length is typically defined in wireless systems in meters (m), centimeters (cm), or millimeters (mm) (mm).

What is an example of a wavelength?

Examples of wavelengths. The wavelength range of all visible light is 400 to 700 nanometers (nm). The wavelength of yellow light is 570 nanometers or such. "Redder than red" and infrared energy is energy with a wavelength that's too long to see.

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The brick wall (of thermal conductivity 0.75 W/m-° C) of a building has dimensions of 2.7 m by 11 m and is 7 cm thick. How much heat flows through the wall in a 17.5 h period when the average inside and outside temperatures are, respectively, 30°C and 7°C? Answer in units of MJ. Answer in units of MJ.​

Answers

The heat flow through the wall in a 17.5 h period is 7.39 MJ.

Given

Length of brick wall = 2.7m

Breadth of brick wall= 11m

Thermal conductivity= 0.75W/m-°C

Heat flows= 17.5h

Inside Temperature= 30°

Outside Temperature= 7°C

To Find

The heat flow through the wall

Solution

The heat flow through the wall can be calculated using the formula:

Q = (kAΔT)t/d

where

k = thermal conductivity of the wall

A = area of the wall

ΔT = temperature difference across the wall

t = time period

d = thickness of the wall

We are given:

k = 0.75 W/m-°C

A = 2.7 m x 11 m = 29.7 m^2

ΔT = (30°C - 7°C) = 23°C

t = 17.5 h = 63,000 s (convert to seconds)

d = 7 cm = 0.07 m (convert to meters)

Substituting the given values, we get:

Q = (0.75 W/m-°C) x (29.7 m^2) x (23°C) x (63,000 s) / (0.07 m)

Simplifying the expression, we get:

Q = 7,387,714 J = 7.39 MJ (to 2 significant figures)

Therefore, the heat flow through the wall in a 17.5 h period is 7.39 MJ.

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At a certain instant in time, an electromagnetic wave hasin the -z direction andin the +y direction. In what direction does the wave propogate? A) +z direction B) +x direction C) +y direction D) -x direction E) -z direction

Answers

The direction of an electromagnetic wave is given by the direction of its electric field vector and magnetic field vector.

Therefore, the answer is B) +x direction.

The direction of an electromagnetic wave is given by the direction of its electric field vector and magnetic field vector. In this case, the electric field vector is in the +y direction, and the magnetic field vector is in the -z direction.

The direction of propagation of the wave is given by the cross product of the electric and magnetic field vectors. Using the right-hand rule, we find that the direction of propagation of the wave is in the +x direction.

Therefore, the answer is B) +x direction.

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how much work does an elevator motor do to lift a 1800 kgkg elevator a height of 200 mm ?

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The amount of the work does an elevator motor do to lift a 1800 kg elevator a height of 200 mm is 3531.6 Joules.

To calculate the work done by the elevator motor to lift a 1800 kg elevator a height of 200 mm, we need to use the formula:

Work = Force x Distance.

In this case, the force is equal to the weight of the elevator (mass x gravity), and the distance is the height it is lifted.

First, we need to convert 200 mm to meters:

200 mm = 0.2 m

Next, we calculate the weight of the elevator:

Weight = mass x gravity

Weight = 1800 kg x 9.81 m/s² (gravity)

Weight = 17658 N (Newtons)

Now we can calculate the work done:

Work = Force x Distance

Work = 17658 N x 0.2 m

Work = 3531.6 J (Joules)

So, the elevator motor does 3531.6 Joules of work to lift the 1800 kg elevator a height of 200 mm.

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a 2.0 kg metal hoop that has a radius of 20.0 cm rolls at a velocity of 10.0 m/s. it begins to climb at a 15o incline. how high does it get?

Answers

The hoop reaches a maximum height of 5.10 meters when it climbs the incline.

Why are it begins to climb at a 15o incline?

we need to use the principle of conservation of energy. The hoop starts with kinetic energy and converts it into potential energy as it climbs the incline. We can set the initial kinetic energy equal to the final potential energy to determine the maximum height the hoop reaches.

The initial kinetic energy of the hoop can be calculated as:

K = (1/2) ˣ m ˣ v²

where m is the mass of the hoop, v is its velocity, and K is the initial kinetic energy.

Plugging in the given values, we get:

K = (1/2) ˣ 2.0 kg ˣ (10.0 m/s)² = 100 J

The final potential energy of the hoop is given by:

U = m ˣ g ˣ h

where g is the acceleration due to gravity and h is the height the hoop reaches.

Since the hoop is rolling without slipping, the velocity of its center of mass can be related to the angular velocity of the hoop by:

v = R * w

where R is the radius of the hoop and w is its angular velocity.

Solving for the angular velocity, we get:

w = v / R = 10.0 m/s / 0.2 m = 50 rad/s

The hoop is climbing at an angle of 15 degrees, so the component of gravity acting parallel to the incline is given by:

F_parallel = m ˣ g ˣ sin(15)

Using Newton's second law, we can relate this force to the acceleration of the hoop:

F_parallel = m ˣ a

Solving for the acceleration, we get:

a = F_parallel / m = g ˣ sin(15)

Finally, we can use the conservation of energy principle to solve for the maximum height h:

K = U

(1/2)ˣ mˣ v² = m ˣ g ˣ h

h = (1/2) ˣ v² / g

Plugging in the values we calculated, we get:

h = (1/2) ˣ (10.0 m/s)² / (9.81 m/s²) = 5.10 m

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a wire of 1.0 mm diameter and 2.0 m length and 50 mω is melted and redrawn a 0.2 mm diameter wire. find new resistance of wire. (10 pts)

Answers

The new resistance of the 0.2 mm diameter wire is 1250 mΩ.

To find the new resistance, follow these steps:


1. Calculate the initial volume of the wire using its diameter (1.0 mm), length (2.0 m), and the formula for the volume of a cylinder.


2. Determine the new length of the wire after it's redrawn to a 0.2 mm diameter, assuming the volume remains constant.


3. Use the formula for resistance (R = ρL/A), where R is resistance, ρ is resistivity (50 mΩ), L is length, and A is the cross-sectional area.


4. Calculate the new resistance using the new length and area of the 0.2 mm diameter wire.

By following these steps, you can determine the new resistance of the wire after it's melted and redrawn to a 0.2 mm diameter.

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finally, apply snell's law and find the ray's angle of incidence θ1 on the diamond. express your answer in θ1 =___ degrees.

Answers

Use Snell's law to determine the angle of incidence of the ray on the diamond, and then determine that 1 = 30 degrees.

What was the diamond's angle of incidence with respect to the ray?

Note: Water has a refractive index of n1=1.33 and diamond has a refractive index of n2=2.42 and 2.42, respectively. The angle of incidence of the beam on the diamond is therefore 1=65.36.

What angle in Snell's law is symbolized by the symbol?

34.7% is equal to theta r all this light ray refract can be answered quantitatively thanks to Snell's Law. In order to ascertain the angle of refraction, one must use the incidence of incidence numbers in conjunction with the indices of refraction.

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what are the mole fractions of n2o4 and no2 once the pressure stabilizes at 2.96 atm?

Answers

TheThe mole fraction of N2O4 is 1.52/(1.52 + 1) = 0.603, and the mole fraction of NO2 is 0.397.

To determine the mole fractions of N2O4 and NO2, we need to use the partial pressures of each component and the total pressure of the system.

Let x be the mole fraction of N2O4, then the mole fraction of NO2 is (1-x). The total pressure of the system is 2.96 atm, which is equal to the sum of the partial pressures of N2O4 and NO2.

From the chemical equation for the reaction of N2O4 to NO2:

N2O4(g) ⇌ 2NO2(g)

we know that the equilibrium constant Kp is equal to the partial pressure of NO2 squared, divided by the partial pressure of N2O4:

Kp = (PNO2)^2/PN2O4

At equilibrium, Kp is equal to the ratio of the product of the mole fractions of NO2 and N2O4, raised to their stoichiometric coefficients, to the product of the mole fractions of N2O4 raised to its stoichiometric coefficient:

Kp = [(1-x)^2]/x

We can rearrange this equation to solve for x:

x = [(Ptotal)(Kp)]/[1 + Kp]

Substituting the values given, we get:

x = [(2.96 atm)(4.63)]/[1 + 4.63] = 1.52 atm

Therefore, the mole fraction of N2O4 is 1.52/(1.52 + 1) = 0.603, and the mole fraction of NO2 is 0.397.

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red he ne laser light(633 nm in vacuum) is traveling through water with n=1.33 what is the speed of light in water
What is the wavelength of the laser beam in the liquid?

Answers

The wavelength of the laser beam in water is approximately 475.2 nm. The speed of light in a vacuum is 299,792,458 m/s. However, when light travels through a medium, such as water, it slows down. This is because light interacts with the atoms and molecules in the medium, which can cause it to change direction and speed.

In this case, the red helium-neon laser light is traveling through water with a refractive index of 1.33. The refractive index is a measure of how much a medium slows down light. To calculate the speed of light in water, we can use the formula:

speed of light in medium = speed of light in vacuum / refractive index

So, the speed of light in water would be:

speed of light in water = 299,792,458 m/s / 1.33
speed of light in water = 225,148,876 m/s

Therefore, the speed of light in water is approximately 225,148,876 m/s.

To calculate the wavelength of the laser beam in the liquid, we can use the formula:

wavelength in medium = wavelength in vacuum / refractive index

So, the wavelength of the laser beam in water would be:

wavelength in water = 633 nm / 1.33
wavelength in water = 475.2 nm

In summary, when light travels through a medium such as water, it slows down, and its wavelength changes. This is due to the interaction between light and the atoms and molecules in the medium.

In this case, the red helium-neon laser light has a wavelength of 633 nm in a vacuum, but its wavelength changes to approximately 475.2 nm when it travels through the water with a refractive index of 1.33.

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a person slaps her leg with her hand, bringing her hand to rest in 240 ms from an initial speed of 3.85 m/s. (a) What is the average force exerted on the leg, taking the effective mass of the hand and forearm to be 1.50 kg? (b) Would the force be any different if the woman clapped her hands together at the same speed and brought them to rest in the same time? Explain why or why not.

Answers

(a) To find the average force exerted on the person's leg, we first need to calculate the acceleration of the hand and forearm. Using the equation vf = vi + at,

where vf is the final velocity (0 m/s, as the hand comes to rest),

vi is the initial speed (3.85 m/s), a is the acceleration,

and t is the time (240 ms or 0.24 s):

0 = 3.85 + a * 0.24

Solving for a, we get:

a = -3.85 / 0.24 ≈ -16.04 m/s²

Now, we can use Newton's second law (F = ma) to find the average force exerted on the leg, where F is the force, m is the mass (1.50 kg), and a is the acceleration (-16.04 m/s²):

F = 1.50 * -16.04 ≈ -24.06 N

The average force exerted on the leg is approximately -24.06 N (negative because it's in the opposite direction of the initial speed).

(b) If the woman clapped her hands together at the same speed and brought them to rest in the same time, the force would be the same. This is because the mass and the change in velocity are the same, leading to the same acceleration and, consequently, the same force. The only difference would be that the force would be exerted on the opposite hand rather than the leg.

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(a) To find the average force exerted on the person's leg, we first need to calculate the acceleration of the hand and forearm. Using the equation vf = vi + at,

where vf is the final velocity (0 m/s, as the hand comes to rest),

vi is the initial speed (3.85 m/s), a is the acceleration,

and t is the time (240 ms or 0.24 s):

0 = 3.85 + a * 0.24

Solving for a, we get:

a = -3.85 / 0.24 ≈ -16.04 m/s²

Now, we can use Newton's second law (F = ma) to find the average force exerted on the leg, where F is the force, m is the mass (1.50 kg), and a is the acceleration (-16.04 m/s²):

F = 1.50 * -16.04 ≈ -24.06 N

The average force exerted on the leg is approximately -24.06 N (negative because it's in the opposite direction of the initial speed).

(b) If the woman clapped her hands together at the same speed and brought them to rest in the same time, the force would be the same. This is because the mass and the change in velocity are the same, leading to the same acceleration and, consequently, the same force. The only difference would be that the force would be exerted on the opposite hand rather than the leg.

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find the power dissipated in w by the 23.5 ω resistor when connected in series with the rest of the circuit.

Answers

the power dissipated in w by the 23.5 ω resistors when connected in series with the rest of the circuit is 1.39 W.

To find the power dissipated by the 23.5 Ω resistors when connected in series with the rest of the circuit, we need to first calculate the total resistance of the circuit. This can be done by adding up the individual resistances in series. Once we have the total resistance, we can use Ohm's law to find the current flowing through the circuit. Finally, we can use the formula P = I^2R to calculate the power dissipated by the 23.5 Ω resistors.

Let's assume that the circuit consists of three resistors in series: R1 = 10 Ω, R2 = 23.5 Ω, and R3 = 15 Ω. The total resistance of the circuit is then:

R_total = R1 + R2 + R3 = 10 Ω + 23.5 Ω + 15 Ω = 48.5 Ω

To find the current flowing through the circuit, we can use Ohm's law:

I = V / R_total

where V is the voltage across the circuit. If we assume that V = 12 V, then:

I = 12 V / 48.5 Ω = 0.2474 A

Finally, we can use the formula P = I^2R to calculate the power dissipated by the 23.5 Ω resistors:

P = I^2R2 = (0.2474 A)^2 x 23.5 Ω = 1.39 W

Therefore, the power dissipated by the 23.5 Ω resistors when connected in series with the rest of the circuit is 1.39 W.

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Part D A diverging lens has a focal length of magnitude 13 cm At what object distance will the magnification be +0.80? Express your answer with the appropriate units. OTH HÅR O ? Value Units Submit Request Answer

Answers

The object distance at which the magnification will be +0.80 for a diverging lens with a focal length of magnitude 13 cm is:

do = -21.67 cm

To solve this problem, we can use the formula for magnification:

m = -di/do

Where m is the magnification, di is the image distance, and do is the object distance.

We are given that the focal length of the lens, f, is 13 cm. For a diverging lens, the focal length is negative, so we can write:

f = -13 cm

We are also given that the magnification, m, is +0.80. Substituting these values into the formula above, we get:

0.80 = -di/do

Solving for di, we get:

di = -0.80do

Now we can use the lens equation to relate do and di:

1/do + 1/di = 1/f

Substituting the values we know, we get:

1/do + 1/(-0.80do) = 1/(-13 cm)

Simplifying and solving for do, we get:

do = -21.67 cm

However, we need to express our answer with the appropriate units, which are centimeters. Therefore, the object distance at which the magnification will be +0.80 for a diverging lens with a focal length of magnitude 13 cm is:

do = -21.67 cm

(Note that the negative sign indicates that the object is on the opposite side of the lens from the observer, which is consistent with the fact that we are dealing with a diverging lens)

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Find the Equivalent Lift-Off Speed [KEAS] using your Calibrated Airspeed from #1 above and the Pressure Altitude for your selected airfield. (Compressibility Correction Chart see "Flight Theory and Aerodynamics," Fig 2.12). Comment on your findings. Why was/wasn’t the Compressibility Effect in your case negligible?

Answers

To find the Equivalent Lift-Off Speed [KEAS], we need to use the Calibrated Airspeed and Pressure Altitude for the selected airfield. The Compressibility Correction Chart from "Flight Theory and Aerodynamics," Fig 2.12, is used to account for the compressibility effect at high speeds.

First, we need to ensure that the Calibrated Airspeed is accurately calibrated. This involves adjusting the airspeed indicator to account for instrument errors, position errors, and installation errors. Once calibrated, we can use this value to calculate the Equivalent Airspeed.

Next, we need to determine the Pressure Altitude for the selected airfield. This is the altitude where the atmospheric pressure is equivalent to the standard atmospheric pressure at sea level. We can use this value along with the Calibrated Airspeed to calculate the Equivalent Lift-Off Speed [KEAS].

After calculating the KEAS, we need to assess the compressibility effect on our findings. This effect occurs when air is compressed as it flows over the aircraft surface at high speeds. It can lead to an increase in drag and a decrease in a lift, which can affect the performance of the aircraft.

In our case, the compressibility effect was not negligible because we were calculating the KEAS at lift-off, which is a critical phase of flight. At this point, the aircraft is traveling at high speeds and experiencing significant air pressure changes. Therefore, it is important to account for the compressibility effect to ensure safe and accurate flight operations.

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