light of wavelength 471 nm in air enters a fishbowl filled with water, then exits through the crown-glass wall of the container. what is the wavelength of the light in the water? the refraction index for water is 1.333 and for crown-glass 1.52.

Answers

Answer 1

After calculations, we come to know that the wavelength of light in the water is 350 nm.

Let us first calculate the critical angle for crown glass.

The formula for the critical angle is: n2/n1 = sin θ2/sin θ1

Let us plug in the values of refractive indices: n2 = 1.52n1

= 1.00 (air)n2/n1

= 1.52/1

= 1.52sin θ2/sin θ1

= 1.52/1sin θ1

= sin(θ2)/1.52sin θ1

= sin^-1(1/1.52)sin θ1 = 41.1°

The critical angle for crown glass is 41.1°.

The angle of incidence of the light ray in air is the same as the angle of refraction of the light ray in water.

We can use the formula for refraction of light: n2 sin θ2 = n1 sin θ1

Let us plug in the values of refractive indices and angle of incidence: n1 = 1.00 (air)   n2 = 1.333 (water)

sin θ1 = sin 0°

= 0sin θ2

= (n1 sin θ1)/n2sin θ2

= (1.00 × 0)/1.333sin θ2 = 0

The angle of refraction of the light ray in water is 0°.

Now, let us calculate the wavelength of light in water using the formula: n1λ1 = n2λ2

Let us plug in the values of refractive indices and wavelength of light in air:  n1 = 1.333 (water)  n2 = 1.52 (crown glass)λ1 = 471 nmn1λ1

= n2λ21.333 × 471

= 1.52λ2λ2

= 1.333 × 471/1.52λ2 = 350 nm

Therefore, the wavelength of light in the water is 350 nm.

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Related Questions

what should one do to apply maximum pushing force? 1) use the largest possible number of segments 2) use the smallest segments 3) move through a large range of motion 4) move the segments in an ordered sequence, one after the other 2, 4 1, 3 1, 2, 3 1, 3, 4

Answers

1) To apply maximum pushing force, use the largest possible number of segments and move through a large range of motion.
2) Additionally, move the segments in an ordered sequence, one after the other, to ensure maximum pushing force.
3) For example, the sequence could be 1, 3, 2, 4.
To apply maximum pushing force, one should move through a large range of motion.

What is maximum pushing force?

Maximum pushing force refers to the amount of force that a person can exert on an object when pushing it. The amount of maximum pushing force that a person can apply is dependent on various factors such as the strength of their muscles, the weight of the object being pushed, and the range of motion.

What should one do to apply maximum pushing force?

To apply maximum pushing force, one should move through a large range of motion. Moving through a large range of motion helps to recruit a larger number of muscle fibers which in turn helps to generate more force. Therefore, option 3 is the correct answer. Option 1 is incorrect because using the largest possible number of segments does not necessarily translate to more force. Option 2 is also incorrect because using the smallest segments may not result in more force. Option 4 is incorrect because moving the segments in an ordered sequence, one after the other does not always translate to more force.

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two sirens are attached to a vertical metal plate. they both have the same frequency and they are in phase. the sirens are separated by a distance of 4.00 m. they generate sound with a frequency of 514 hz. a fire fighter is standing away from the sirens, in front of one of the sirens. what is the closest distance from the metal plate the fire fighter can stand and hear destructive interference?

Answers

Answer:

When two sound waves with the same frequency and amplitude interfere, they can either add up constructively, resulting in a louder sound, or cancel each other out destructively, resulting in no sound at all. Destructive interference occurs when the waves are out of phase by half a wavelength, which means that the distance between the two sources is equal to an odd multiple of half the wavelength.

In this case, the distance between the two sirens is 4.00 m, which is equal to one wavelength (λ) plus half a wavelength (λ/2) of the sound waves they emit. Therefore, the wavelength of the sound waves is λ = 4.00 m / 1.5 = 2.67 m.

To find the distance from the metal plate where the fire fighter can stand and hear destructive interference, we need to calculate the distance from the plate to the fire fighter that is equal to an odd multiple of half the wavelength. Let's call this distance "x".

If the fire fighter is standing in front of one siren, the distance from the plate to the fire fighter is:

d1 = x

If the fire fighter moves towards the plate by a distance of half the wavelength, the distance from the plate to the fire fighter becomes:

d2 = x - λ/2

The difference between these two distances must be an odd multiple of half the wavelength for destructive interference to occur:

d2 - d1 = -λ/2 = -(2.67 m / 2) = -1.335 m

Therefore, the fire fighter can stand at a distance of x = 1.335 m away from the metal plate and hear destructive interference.

Electron diffraction
21.
a) The table below shows four statements that may or may not be true about the wave nature
of the electron. Place a tick next to the statement if it is correct and cross if it is incorrect.
Electron can be diffracted by matter. This confirms their wave nature.
The wavelength of the electron is given by the de Broglie equation
The wave associated with a moving electron is an electromagnetic wave
The kinetic energy of the electron is given by the equation E = hf
b) Calculate the speed of a carbon atom of mass 2.0 x 10-26 kg travelling in space with a de
Broglie wavelength of 6.8 x 10-26 m.

Answers

a) The correct statements are: Electron can be diffracted by matter. This confirms their wave nature.

The wavelength of the electron is given by the de Broglie equation.

The incorrect statements are:

The wave associated with a moving electron is an electromagnetic wave.

The kinetic energy of the electron is given by the equation E = hf.

b) The de Broglie wavelength of a particle is given by the equation:

λ = h / p

where λ is the wavelength, h is Planck’s constant, and p is the momentum of the particle. The momentum of the carbon atom is given by:

p = mv

where m is the mass of the carbon atom and v is its velocity. Substituting the given values, we get:

p = (2.0 x 10⁻²⁶kg) v

λ = h / p

λ = h / (2.0 x 10⁻²⁶ kg) v

Substituting the given value of λ, we get:

6.8 x 10⁻²⁶ m = (6.626 x 10⁻³⁴ J s) / (2.0 x 10⁻²⁶kg) v

Solving for v, we get:

v = (6.626 x 10⁻³⁴ J s) / (2.0 x 10⁻²⁶ kg) (6.8 x 10⁻²⁶ m)

v = 1.62 x 10³ m/s

Therefore, the speed of the carbon atom is 1.62 x 10³ m/s.

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a 92 kg man lying on a surface of negligible friction shoves a 75 g stone away from himself, giving it a speed of 4.0 m/s. what speed does the man acquire as a result?

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The required speed of the man when mass and speed of the stone are specified is calculated to be 0.00326 m/s.

Mass of the man is given as M = 92 kg.

Mass of the stone is given as m = 75 g = 0.075 kg.

Speed of the stone is given as u = 4 m/s.

Speed of the man is to be found out, v = ?

Using the conservation of momentum, we have,

The initial velocities of the man and the stone is zero(V).

So, mathematically,

(M+m)V = M v + m u

(M+m) × 0 = 92 × v + 0.075 × 4

92 × v + 0.3 = 0

92 v = - 0.3

v = - 0.00326 m/s

Thus, the speed of the man is calculated to be 0.00326 m/s.

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how does the terminal velocity depend on the drag force? is the relationship linear or nonlinear? explain your responses.

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The terminal velocity depends directly on the drag force and the relationship between them is nonlinear.

The terminal velocity is the maximum velocity that a falling object can reach when the drag force of the surrounding fluid is equal to the gravitational force acting on the object. The drag force is dependent on the velocity of the object, and as the velocity increases, the drag force also increases.

However, the relationship between the drag force and velocity is nonlinear because the drag force is proportional to the square of the velocity. This means that as the velocity of the object increases, the drag force increases more rapidly. Therefore, the terminal velocity, which is the point at which the drag force balances the gravitational force, is reached when the nonlinear relationship between the drag force and velocity is balanced by the gravitational force.

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what is the frequency of a wave that travels 20 m/s with a wavelength of 200 meters?

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The frequency of a wave is the number of cycles it completes in a given period of time, and it can be calculated using the following equation: frequency = velocity/wavelength. In the case of this wave, the frequency is 0.1 Hz (or 10 cycles/second).



frequency = 20 m/s/200 m = 0.1 Hz
The frequency of a wave that travels at 20 m/s with a wavelength of 200 meters is 0.1 Hz.What is frequency?Frequency is the number of occurrences of a periodic event per unit of time. It is commonly used to determine the number of occurrences of a specific event in a given period of time.

The frequency equation is:f = v/λwhere:f is the frequency of the  v is the velocity of the wave (m/s)λ is the wavelength of the wave (m)Using the formula given above:f = v/λwherev = 20 m/sλ = 200 metersf = 20/200f = 0.1 HzTherefore, the frequency of the wave is 0.1 Hz.

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A 4.80-Kg watermelon is dropped from rest from the roof of a 25.0-m-tall building and feels no appreciable air resistance. (a) calculate the work done by gravity on the watermelon during its displacement from the roof to the ground. (b) just before it strikes the ground, what is the watermelon's (i) kinetic energy and (ii) speed??(c) which of the answers in parts (a) and (b) would be different if there were appreciable air resistance?

Answers

(a) Work done by gravity on the watermelon is 1,182 J.(b)the watermelon's (i) kinetic energy just before it strikes the ground is 1,176.6 J and (ii) speed just before it strikes the ground is 48.49 m/s.The answer to part (b) would be different if there were appreciable air resistance.

(a)The given values are:

Mass of watermelon, m = 4.80 kg

Height from which watermelon is dropped, h = 25.0 m

Work done by gravity on the watermelon when it is displaced from the roof to the ground can be calculated as follows:

Work done by gravity, W = mg hwhere,g = acceleration due to gravity = 9.81 m/s²m = mass of the watermelon = 4.80 kg

h = height of the building from which the watermelon is dropped = 25.0 m

Substituting these values, we get:W = (4.80 kg) (9.81 m/s²) (25.0 m)W = 1,182 J

Therefore, the work done by gravity on the watermelon during its displacement from the roof to the ground is 1,182 J.

(b) The watermelon's (i) kinetic energy and (ii) speed just before it strikes the ground is:(i) Kinetic energy of the watermelon just before it strikes the ground can be calculated as follows:

Initial potential energy = mghInitial potential energy, U = (4.80 kg) (9.81 m/s²) (25.0 m)U = 1,176.6 J

Final kinetic energy, K = Initial potential energy, U

Therefore, Kinetic energy of the watermelon just before it strikes the ground is 1,176.6 J.

(ii) Let v be the speed of the watermelon just before it strikes the ground.

Kinetic energy = 0.5mv²where,m = mass of the watermelon = 4.80 kgK = Kinetic energy of the watermelon just before it strikes the ground = 1,176.6 J

Substituting these values, we get:K = 0.5mv²1,176.6 J = 0.5 (4.80 kg) v²2,353.2 J/kg = v²

Taking square root of both sides, we get:v = 48.49 m/s

Therefore, the watermelon's (i) kinetic energy just before it strikes the ground is 1,176.6 J and (ii) speed just before it strikes the ground is 48.49 m/s.

(c) The answer to part (b) would be different if there were appreciable air resistance. The kinetic energy of the watermelon just before it strikes the ground would be lower if there were appreciable air resistance because some of the initial potential energy of the watermelon would be lost to the air due to air resistance.

This means that the final kinetic energy of the watermelon would be lower if there were appreciable air resistance.

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Two batteries connected in series with the negative terminal of one connected to the negative terminal of the other will have an overall voltage equivalent to the:

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They will have an overall voltage equivalent to the sum of the individual battery voltages.

Connection of batteries in series

When two batteries are connected in series, the negative terminal of one battery is connected to the positive terminal of the other. This creates a circuit in which electrons flow from the negative terminal of the first battery, through the circuit, and into the positive terminal of the second battery.

The overall voltage of the combined batteries will be equal to the sum of the individual battery voltages. For example, if two batteries are connected in series and each has a voltage of 1.5V, then the total voltage of the combination will be 3V.

This is because the voltage of the first battery is added to the voltage of the second battery. The same principle applies when more than two batteries are connected in series. The total voltage of the combination will be equal to the sum of the individual battery voltages.

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a block (mass m) slides down- wards an inclined rough plane. determine the acceleration. under what circumstances tilt over is excluded?

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The block sliding downwards on an inclined rough plane accelerates with a magnitude of g sinθ − µg cosθ, where µ is the coefficient of kinetic friction. The maximum angle that the plane can make with the horizontal is tan−1 µ.There are no circumstances in which tilting over is excluded.

When a block of mass m slides down on an inclined rough plane, the force acting on it is its weight, which is in a downward direction. This can be resolved into two components: one that is parallel to the plane and the other that is perpendicular to it. The former tends to move the block down the plane, while the latter counteracts the normal force acting on the block. The acceleration of the block can be calculated as a result of the net force acting on it.

µ is the coefficient of kinetic friction.

The angle of the plane with the horizontal is denoted by θ.

The acceleration of the block is given by:

a = g sinθ − µg cosθ

Under certain circumstances, tilting over is avoided. A block can be prevented from tilting over on an inclined plane by ensuring that the center of gravity of the block lies within the base of the plane.

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Use a 10mH inductor to design a low-pass passive filter with a cutoff frequency of 1600rad/s. a) Specify the cutoff frequency in hertz. b) Specify the value of the filter resistor. c) Assume the cutoff frequency cannot decrease by more than 10%. What is the smallest value of load resistance that can be connected across the output terminals of the filter? d) If the resistor found in (c) is connected across the output terminals, what is the magnitude of H(jω) when ω=0 ?

Answers

Use a 10mH inductor to design a low-pass passive filter with a cutoff frequency of 1600rad/s.

a) To specify the cutoff frequency in hertz, you can use the formula:
f = ω / 2π
where f is the frequency in hertz, and ω is the frequency in radians per second.

Given the cutoff frequency of 1600 rad/s, you can calculate the frequency in hertz as follows:
f = 1600 / (2 * π) ≈ 254.65 Hz

b) To specify the value of the filter resistor, use the formula:
R = 1 / (ω * L)
where R is the resistor value, ω is the cutoff frequency in rad/s, and L is the inductor value.

Given the cutoff frequency of 1600 rad/s and an inductor value of 10mH (0.01 H), the resistor value can be calculated as follows:
R = 1 / (1600 * 0.01) ≈ 0.0625 Ω

c) To find the smallest value of load resistance that can be connected across the output terminals of the filter without decreasing the cutoff frequency by more than 10%, you can use the following formula:

R_ load_ min = R / ((1 - 0.9) * (1 + 0.9))
Given the resistor value calculated in (b) is 0.0625 Ω:
R_ load_ min = 0.0625 / ((1 - 0.9) * (1 + 0.9)) ≈ 3.125 Ω

d) If the resistor found in (c) is connected across the output terminals, the magnitude of H(jω) when ω=0 can be calculated using the formula:
H(jω) = R_ load / (R + R_ load)

Given the resistor values calculated in (b) and (c):
H(jω) = 3.125 / (0.0625 + 3.125) ≈ 0.9804

So, the magnitude of H(jω) when ω=0 is approximately 0.9804.

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What is the reaction time for someone who lets 7 inches fall on a meter stick before the catch it?

A. 1.0 s
B. 0.19 s
C. 0.33 s
D. 0.08 s

Show the work for determining the reaction time of the person...show symbolic solution then numerical solution.

Answers

We must apply the following formula to determine the person's reaction time: [tex]d = 1/2 at^2[/tex] where: The distance travelled is d. (in this case, the distance the metre stick fell, which is 7 inches or 0.1778 meters). The reaction time is t.

How is reaction time distance determined?

The distance is influenced by the speed and reaction time (in seconds) (in feet per second).Reaction Distance = Response Time x Speed is the formula for calculating it.

What is response time in 11th-grade physics?

After recognising the need for them, a driver uses the brakes in 0.20 seconds. This is referred to as the driver's reaction time. if he's operating a vehicle

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What is responsible for the weather changes on Earth?

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Answer: Geological records show that there have been a number of large variations in the Earth's climate. These have been caused by many natural factors, including changes in the sun, emissions from volcanoes, variations in Earth's orbit and levels of carbon dioxide (CO2).

For a shorter answer: changes in the sun, emissions from volcanoes, variations in Earth's orbit and levels of carbon dioxide (CO2).

identify the equation that relates the wave period and wavelength.

Answers

Answer:

The equation that relates the wave period and wavelength is:

wave speed = wavelength / wave period

Explanation:

The equation that relates the wave period (T) and wavelength (λ) is v = λ / T, Where v represents the velocity of the wave.

The wave period (T) is the time it takes for one complete cycle of a wave to pass a given point. It is measured in seconds (s) and represents the time taken for a wave to repeat its pattern.

The wavelength (λ) is the distance between two corresponding points on a wave, usually measured from crest to crest or trough to trough. It is denoted in units of length, such as meters (m) or centimeters (cm). The wavelength determines the spatial extent of a wave's repeating pattern.

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a newly discovered star is 2.33 times brighter when measured using a u filter than when using a b filter. what is the star's (u-b) color? a newly discovered star is 2.33 times brighter when measured using a u filter than when using a b filter. what is the star's (u-b) color?

Answers

The star's (u-b) color can be calculated by taking the logarithm base 10 of the brightness ratio between the u and b filters, which yields a value of 0.63 magnitudes. Therefore, the star has a blue color.

The newly discovered star in this instance is revealed to be 2.33 times brighter when measured with the u filter than with the b filter. This ratio's logarithm in base 10 gives us log(2.33) = 0.37. The (u-b) colour index is 0.63 magnitudes since we are interested in the magnitude difference between the u and b filters, thus we must multiply this number by a factor of 1.7. This number being positive leads us to the conclusion that the star is blue. We cannot, however, draw any firm conclusions about the size, age, or makeup of the star without knowing more about its absolute brightness or other features.

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ASAP................Research the use in the military of magnetic anomaly detectors, MADs. Write a brief 300-word essay answer the following questions on MADs. What is the main idea behind MADs? What can be detected by using MADs? A brief history of the MAD development.

Answers

Answer:

ASAP................Research the use in the military of magnetic anomaly detectors, MADs. Write a brief 300-word essay answer the following questions on MADs. What is the main idea behind MADs? What can be detected by using MADs? A brief history of the MAD development.

Explanation:

As you found in Part A, your weight will be greater than normal when the elevator is moving upward with increasing speed. For what other motion would your weight also be greater than your normal weight?
The elevator moves downward while slowing in speed.

Answers

In the other motion,  your weight also be greater than your normal weight if the elevator moves downward while slowing in speed, then the weight of the person would also be greater than the normal weight.

What is the normal force of an object?

The normаl force is the perpendiculаr force thаt opposes the weight of аn object in contаct with а surfаce. The normаl force equаls the object's weight only in situаtions where the object is directly on а horizontаl surfаce or the incline аngle is 0 degrees.

The force exerted by аn object perpendiculаr to а surfаce thаt prevents the object from sinking into the surfаce is referred to аs the normаl force. When аn object is plаced on а surfаce, the surfаce responds by exerting а force thаt is perpendiculаr to the object's weight. Аnother motion thаt would аlso result in your weight being greаter thаn your normаl weight is when the elevаtor moves downwаrd while slowing in speed. This occurs due to the аccelerаtion of the person within the elevаtor.

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A tennis ball is dropped from 1.0 m, bounces off the ground, and rises to 0.85 m.What kind of collision occurred between the ball and the ground?elastic collisioninelastic collisionperfectly elastic collisionperfectly inelastic collision

Answers

The collision between the tennis ball and the ground is an inelastic collision, as some energy was lost during the collision, indicating that it was not perfectly elastic.

The collision between the tennis ball and the ground is an example of an inelastic collision. During the collision, some energy is lost due to the deformation of the ball and the ground. This loss of energy is evidenced by the fact that the ball does not rebound to the same height from which it was dropped. In an elastic collision, the kinetic energy of the system is conserved, but in an inelastic collision, it is not. Inelastic collisions are characterized by permanent deformation of the objects involved, as energy is transformed into other forms such as heat and sound.

Therefore, based on the information given, we can conclude that the tennis ball and the ground experienced an inelastic collision when the ball was dropped from a height of 1.0 m, bounced off the ground, and rose to a height of 0.85 m.

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you are designing a velocity selector for a mass spectrometer. you want the charged particles entering the spectrometer to be traveling at 3500 m/s northward. you have a set of parallel plates that will create a 2100 n/c electric field downward. how strong and in what direction should the magnetic field be inside the velocity selector?

Answers

The required magnitude of magnetic field is 0.6 T and the direction of magnetic field is in positive x-direction.

The expression for velocity, electric field and magnetic field when electric and magnetic fields are perpendicular to each other is,

v = E/B

where,

v is velocity

E is magnitude of electric field

B is magnitude of magnetic field

To find out the magnitude of magnetic field, let us make it as subject,

B = E/v = 2100/3500 = 0.6 T

The direction of velocity is given northwards. The direction of electric field is downwards. So, the direction of magnetic field is in positive x direction.

This is because, Electric field E, magnetic field B and velocity v are all perpendicular to one another.

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What is initial velocity of a ball (m/s) which is thrown upwards and takes 15.0s to return to its starting position?

A. 73.6 m/s
B. 73.6 m/s^2
C. 25 m/s^2
D. 25 m/s

Answers

The initial velocity of the ball is approximately 73.65 m/s. So, the correct option is A. 73.6 m/s.


Acceleration-Time Graph: What is it?

A particle travelling in a straight line has its acceleration plotted against time on an acceleration-time graph.

To solve this problem, we need to use the formula for the displacement of an object under constant acceleration:

Δy = v₀t + 1/2at²

where:

Δy = 0 (because the ball returns to its starting position)

v₀ = initial velocity (what we're trying to find)

t = 15.0 s (the time it takes for the ball to return to its starting position)

a = acceleration due to gravity (approximately -9.81 m/s², assuming the ball is thrown on Earth)

Plugging in these values, we get:

0 = v₀(15.0 s) + 1/2(-9.81 m/s²)(15.0 s)²

Simplifying:

0 = 15.0v₀ - 1104.75

Solving for v₀:

v₀ = 1104.75/15.0

v₀ ≈ 73.65 m/s

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a man is marooned at rest on level frictionless ice. in desperation, he hurls his shoe to the right at 15m/s. if the man weighs 720n and the shoe weighs 4.0n, the man moves to the left with a speed of:a. b. c. d. e. ans: c

Answers

The man moves to the left with a speed of 0.084 m/s (or about 8.4 cm/s) after he throws the shoe to the right.

To solve this problem, we need to apply the law of conservation of momentum, which states that the total momentum of a system is conserved if no external forces act on it. In this case, the man and the shoe form a closed system, and their initial momentum is zero because they are at rest. After the man throws the shoe to the right, the system's momentum remains zero, but the man will move to the left to conserve the momentum.

We can use the formula for momentum, which is given by:

[tex]p = m .v[/tex]

Where p is momentum, m is mass, and v is velocity.

Before the man throws the shoe, the total mass of the system is:

[tex]m_{total} = m_{man} + m_{shoe}\\\\m_{total} = \frac{720 N}{9,81 m/s^2} + \frac{4,0 N}{9,81 m/s^2} \\\\m_{total} = 73.4 kg[/tex]

The initial momentum of the system is:

[tex]p_{initial} = m_{total} . 0\\p_{initial} = 0 kg m/s[/tex]

After the man throws the shoe, the shoe's momentum is:

[tex]p_{shoe} = m_{shoe} . v_{shoe}\\\\p_{shoe} = \frac{4,0 N}{9,81 m/s^2}. 15 m/s \\\\p_{shoe} = 6.10 kg m/s[/tex]

To conserve the momentum, the man's momentum must be equal and opposite:

[tex]p_{man} = -p_{shoe}\\p_{man} = -6.10 kg m/s[/tex]

Finally, we can solve for the man's velocity using the formula for momentum:

[tex]p_{man} = m_{man} . v_{man}\\\\v_{man} = \frac{p_{man}}{m_{man}} \\\\v_{man} = \frac{(-6).10 kg m/s}{\frac{720 N}{9,81 m/s^2} } \\\\v_{man} = -0.084 m/s[/tex]

Therefore, the man moves to the left with a speed of 0.084 m/s (or about 8.4 cm/s) after he throws the shoe to the right.

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Two balls, each with a mass of 0. 5 kg, collide on a pool table. Is the law of conservation of momentum satisfied in this collision? Explain why or why not

Answers

In the given collision scenario, the law of conservation of momentum is not satisfied, indicating the idealized nature of perfectly elastic collisions.

To determine whether the law of conservation of momentum is satisfied in this collision, we need to calculate the total momentum of the system before and after the collision and see if they are equal.

If we assume that the two balls are moving in opposite directions with the same speed, then their momenta before the collision are:

p₁ = m₁v₁ = (0.5 kg)(v) and p₂ = m₂v₂ = -(0.5 kg)(v)

where v is the speed of the balls, and the negative sign for p₂ indicates that it is in the opposite direction.

The total momentum before the collision is:

p_before = p₁ + p₂ = (0.5 kg)(v) - (0.5 kg)(v) = 0

This means that the total momentum of the system before the collision is zero.

After the collision, the two balls will stick together and move with a common speed. Let's assume that their final speed is v_f.

The total momentum after the collision is:

p_after = (m₁ + m₂)*v_f = (0.5 kg + 0.5 kg)v_f = 1 kgv_f

Since the two balls stick together and move with a common speed, the momentum is conserved and the total momentum after the collision is equal to the total momentum before the collision:

p_before = p_after = 0 = 1 kg*v_f

This is a contradiction, as there is no value of v_f that satisfies this equation. Therefore, the law of conservation of momentum is not satisfied in this collision.

In reality, the collision between the two balls would not be perfectly elastic, and some energy would be lost to friction and other factors. This would result in a partial loss of momentum, and the law of conservation of momentum would be approximately satisfied, but not exactly.

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A car of mass 1100kg moves at 24 m/s. What is the braking force needed to bring the car to a halt in 2. 0 seconds? N

Answers

The braking force needed to bring the car to a halt in 2.0 seconds, given that the car has amass of 1100 Kg and was moving at 24 m/s is -13200 N

How do i determine the braking force needed?

We'll begin our calculation by obtaining the deceleration of the car. This is shown below:

Initial velocity (u) = 24 m/sFinal velocity (v) = 0 m/sTime (t) = 2 secondsDeceleration of car (a) =?

a = (v - u) / t

a = (0 - 24) / 2

a = -24 / 2

a = -12 m/s²

Haven obtained the deceleration, we shall determine the breaking force needed to halt the car. Details below:

Mass (m) = 1100 KgDeceleration (a) = -12 m/s²Breaking force (F) =?

Force = mass × deceleration

Breaking force = 1100 × -12

Breaking force = -13200 N

Thus, the breaking force needed to stop the car is -13200 N

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if an object is being subjected to two forces in the positive y-direction of 20n each, a force in the positive x-y direction of 65n at an angle of 60 degrees with respect to the positive x-axis, and a force in the positive x-direction of 15n. what is the resultant force?

Answers

The resultant force of an object being subjected to two forces in the positive y-direction of 20N each, a force in the positive x-y direction of 65N at an angle of 60 degrees with respect to the positive x-axis, and a force in the positive x-direction of 15N is 103.85N.

This can be calculated by the use of vector addition. Vector addition involves combining the vectors mathematically so that the total effect of all the vectors can be seen.

Step 1: Represent each of the forces as vectors. For the two forces in the positive y-direction, these can be represented as Fy1 = 20N and Fy2 = 20N. The force in the positive x-y direction can be represented as Fxy = 65N at an angle of 60 degrees. Lastly, the force in the positive x-direction can be represented as Fx = 15N.

Step 2: Calculate the components of the force in the positive x-y direction. This can be done using trigonometry. The horizontal component is found by multiplying the force by the cosine of the angle. This gives the horizontal component as Fxy,h = 65N x cos60 = 65N x 0.5 = 32.5N. Similarly, the vertical component is found by multiplying the force by the sine of the angle. This gives the vertical component as Fxy,v = 65N x sin60 = 65N x 0.866 = 56.59N.

Step 3: Calculate the resultant force. This can be done by summing the components of each of the forces. For the x-direction, this is simply Fx = 15N + 32.5N = 47.5N. For the y-direction, this is Fy = 20N + 20N + 56.59N = 96.59N.

Step 4: Calculate the magnitude and direction of the resultant force. This can be done using the Pythagorean theorem, since the magnitude is the hypotenuse of a right triangle. The magnitude of the resultant force is thus Fres = √(47.52 + 96.592) = 103.85N. The direction is found by using the inverse tangent of the x and y components. This gives the direction as θ = tan-1(96.59/47.5) = 77.94°.

Therefore, the resultant force of the object being subjected to two forces in the positive y-direction of 20N each, a force in the positive x-y direction of 65N at an angle of 60 degrees with respect to the positive x-axis, and a force in the positive x-direction of 15N is 103.85N at an angle of 77.94° with respect to the positive x-axis.


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3. a frictionless pulley has the shape of a uniform solid disk of mass 2.5 kg and radius 20.0 cm. a 1.5-kg stone is attached to a massless wire that is wrapped around the rim of the pulley, as shown. the system is then released from rest. as always, show details of your calculation. a. how far (in m)must the stone fall so that the pulley has 4.5 j of kinetic energy? b. what percent of the total kinetic energy of the system does the pulley have at that point?

Answers

a. To calculate the distance the stone must fall, we need to use the formula KE = ½ mv², where m is the mass of the object and v is the velocity of the object. First, calculate the total kinetic energy of the system:
[tex]KEtotal = ½ mPulley x v² + ½ mStone x v² = ½ (2.5 kg)(4.5 J) + ½ (1.5 kg)(4.5 J) = 6.75 J[/tex]

We then rearrange the equation to solve for v²: v² = 2 x KE / m = (2 x 6.75 J) / (1.5 kg) = 9 J/kg.Next, we need to calculate the velocity of the stone, vStone, which is equal to the square root of the above equation: vStone = √(9 J/kg) = 3 m/s

Finally, we need to use the equation s = vt, where s is the distance the stone falls, v is the velocity of the stone, and t is the time it takes for the stone to fall. We rearrange the equation to solve for t: t = s / v = 4.5 m / 3 m/s = 1.5 s Therefore, the stone must fall a distance of 4.5 m in order for the pulley to have 4.5 J of kinetic energy.

b. To calculate the percent of the total kinetic energy of the system that the pulley has, we need to use the equation: Percent of total KE = KEpulley/KEtotal x 100%. KEpulley = ½ mPulley x v² = ½ (2.5 kg)(4.5 J) = 4.5 J
Therefore, the percent of the total kinetic energy that the pulley has is 4.5 J/6.75 J x 100% = 66.67%.

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when a particle is located a distance meters from the origin, a force of newtons acts on it. find the work done in moving the particle from to . find the work done in moving the particle from to . find the work done in moving the particle from to .

Answers

When a particle is located a distance 2 meters from the origin, a force of 4 newtons acts on it.

The work done in moving the particle from A to B is 16J

The work done in moving the particle from B to C is -8J

The work done in moving the particle from C to D is 8J

Force F = 4N

Displacement dx = 2m

Total displacement of the particle from point A to B is dAB = 4m.

Work done is given by: W = F.dx (cosθ)  

Where,θ is the angle between the force and displacement.

1. Work done in moving the particle from A to B:

Let the particle is located at point A (x = 0). The force F acts in the positive direction of the x-axis. Therefore, the angle between the force and displacement is 0°.The work done in moving the particle from point A to B is

WAB = F(dx) cosθ

= (4 N)(4m) cos 0°

= (4 N)(4m)

= 16 J

2. Work done in moving the particle from B to C:

The displacement of the particle from B to C is dBC = 2m.

Therefore, the total displacement of the particle from point A to C is

dAC = dAB + dBC

=4m + 2m = 6m.

The force F acts in the negative direction of the x-axis. Therefore, the angle between the force and displacement is 180°.The work done in moving the particle from point B to C is

WBC = F(dx) cosθ

= (4 N)(2m) cos 180°

= (4 N)(-2m)

= -8 J

Note: Here, cos 180° = -1.

3. Work done in moving the particle from C to D:

Let the particle is located at point D (x = 6m).

The force F acts in the positive direction of the x-axis. Therefore, the angle between the force and displacement is 0°.

The work done in moving the particle from point C to D is WCD = F(dx) cosθ

= (4 N)(2m) cos0°

= (4 N)(2m)

=8J

Therefore, the work done in moving the particle from A to B is 16 J, the work done in moving the particle from B to C is -8 J, and the work done in moving the particle from C to D is 8 J.

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PLEASE HELP ME OUT!!!!!!!

Answers

One solution to the depletion of mineral and energy resources is to increase resource efficiency and conservation.

What is a solution to the depletion of mineral and energy resources?

Resource efficiency and conservation can be done by reducing waste and improving the efficiency of resource use in manufacturing, transportation, and consumption.

This can be achieved through measures such as recycling, using renewable energy sources, and developing more efficient technologies.

Overall, addressing the depletion of mineral and energy resources will require a combination of technological innovations, sustainable practices, and responsible policies that prioritize the long-term health of our planet and its resources.

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A student moves a 222.0 newton table by lifting it above their head in
7.0 seconds, the student is 2 meters tall. How many joules of work did
the student do?

Answers

Work = 222 cm x 2. The joule 444(J), sometimes known as the newton metre (N m), is the Si derived unit for work. The work required to move an item 2 metres with 1 N much force is measured in joules.

How much work does one joule equal?

The work performed by a force from one newton acting via one metre is equivalent to one joule, a unit of work of energy in the Internacional System of Units (SI). Its name honours English physicist William Prescott Joule and its equivalent in ergs is 107, or around 0.7377 foot-pounds.

How many newtons is one joule?

The work (or heat expended) by the a force with one newton (N) operating more than a distance of 1 m is equivalent to one joule (m). A force of one newton causes a mass of one kilogramme (kg) to accelerate by one m per second (s) every second. Thus, one joule is equivalent to one newton metre.

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what is the horizontal distance of the center of gravity of the person-ladder system from the point where the ladder touches the ground? express your answer with the appropriate units.

Answers

The person-ladder system's centre of gravity is located 0.3 metres horizontally from the point where the ladder hits the ground.

What is the centre of gravity exactly?

The average position of an object's weight is known as its centre of gravity. Any object's travel through space may be entirely explained in terms of how its centre of gravity moves from one location to another.

According to the principle of moments, the total of the clockwise and anticlockwise moments is equal. In this instance, we could type:

[tex]W1 * d1 = (W1 + W2) * x[/tex]

We know that the total of the vertical forces acting on the ladder and the person is zero since they are both in equilibrium. Hence, we may write:

W1 + W2 = F

where F is the system's weight multiplied by the vertical force exerted on the ladder-person arrangement.

The two equations together give us:

W1 * d1 = F * x

Solving for x, we get:

x = (W1 * d1) / F

W1 = 200 N

W2 = 600 N

F = W1 + W2 = 800 N

we can see that d1 = 1.2 m and d3 = 0.8 m. Therefore:

x = (W1 * d1) / F = (200 N * 1.2 m) / 800 N = 0.3 m

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The center of gravity for the person-ladder system is 0.3 meters away from where the ladder touches the ground.

The sum of the clockwise and anticlockwise moments is equal, as per the moments' principle.

W1 × d1 = (W1 + W2)

Since the ladder and the person are both in equilibrium, we know that the sum of the vertical forces acting on them is zero. So, we may say:

W1 + W2 = F

Where F is the system's weight multiplied by the vertical force exerted on the ladder-person arrangement.

The two equations together give us:

W1 × d1 = F × x

Solving for x, we get:

x = (W1 × d1) / F

W1 = 200 N

W2 = 600 N

F = W1 + W2 = 800 N

d1 = 1.2 m and d3 = 0.8 m.

Therefore:

x = (W1 × d1) / F

= (200 N × 1.2 m) / 800 N

Distance = 0.3 m

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a spherical shell and a solid sphere (both of the same total mass) are rotating about a diameter at the same angular frequency and with the same rotational kinetic energy. what is the ratio of the spherical shell radius to the solid sphere (i.e., rspherical shell/rsolid sphere)?

Answers

Answer:

I (shell) = 2/3 M R^2

I(sphere) = 2/5 M R^2

I(shell) / I(sphere) = (2/3) / (2/5) = 5/3

R(shell) / R(sphere) = (5/3)^1/2 = (15)^1/2 / 3

an empty parallel plate capacitor is connected between the terminals of a 6.33-v battery and charges up. the capacitor is then disconnected from the battery, and the spacing between the capacitor plates is doubled. as a result of this change, what is the new voltage between the plates of the capacitor?

Answers

The new voltage between the plates of the capacitor in the terminals of a 6.33-V battery is 6.33-V.


The voltage between the plates of the capacitor will remain the same after the spacing between the plates is doubled. This is because the voltage of a capacitor is determined solely by the amount of charge stored in the capacitor. Increasing the spacing between the plates does not change the charge stored on the capacitor, so the voltage between the plates stays the same.

In this case, the new voltage between the plates of the capacitor would remain at 6.33-V.

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