Which image illustrates why someone's voice can be heard by a listener
standing around the corner?
A. A
B. B
C. C
D. D

Which Image Illustrates Why Someone's Voice Can Be Heard By A Listenerstanding Around The Corner?A. AB.

Answers

Answer 1

Answer:

I believe it is C but I could be wrong

Explanation:

From the picture it shows the eco/voice coming from room to room. I hope this helped have a wonderful day or night!


Related Questions

Exercise 16.1
For sound waves in air with frequency 1000 Hz, a displacement amplitude of 1.2×10?8m produces a pressure amplitude of 3.0×10?2Pa. Use vsound= 344 m/s.
Part A
What is the wavelength of these waves?
Part B
For 1000-Hz waves in air, what displacement amplitude would be needed for the pressure amplitude to be at the pain threshold, which is 30 Pa?
Part C
For what wavelength will waves with a displacement amplitude of 1.2×10?8m produce a pressure amplitude of 1.5×10?3Pa?
Part D
For what frequency will waves with a displacement amplitude of 1.2×10?8m produce a pressure amplitude of 1.5×10?3Pa?

Answers

Therefore, wavelength with a displacement amplitude of [tex]1.2 * 10^{-8} m[/tex] that produces a pressure amplitude of [tex]1.5 * 10^{-3}[/tex] Pa have a frequency of approximately.

Part A: The speed of sound in air is given as vsound = 344 m/s. The formula for the speed of a wave is given as:

v = λf

λ = v/f

Substituting the values given, we have:

λ = 344 m/s / 1000 Hz = 0.344 m

Therefore, the wavelength of these waves is 0.344 m.

Part B:

Displacement amplitude needed for the pressure amplitude to be at the pain threshold, we can use the formula for the pressure amplitude in terms of displacement amplitude:

P = ρvsoundωA

A = P / (ρvsoundω)

Substituting the values given, we have:

A = 30 Pa / (1.2 kg/m³ × 344 m/s × 2π × 1000 Hz) ≈ [tex]2.03 * 10^{-7} m[/tex]

Therefore, the displacement amplitude needed for the pressure amplitude to be at the pain threshold is approximate  [tex]2.03 * 10^{-7} m[/tex].

Part C: We can use the same formula as in Part B, but solve for the wavelength instead of the displacement amplitude. Rearranging the formula gives:

λ = 2πA / ω

ω = 2πf = 2π × 1000 Hz = 2000π rad/s

[tex]A = 1.2 * 10^{-8} m\\P = 1.5 * 10^{-3} Pa[/tex]

ρ = 1.2 kg/m³

vsound = 344 m/s

Using the formula, we have:

λ = 2π × 1.2 × [tex]10^{-8} m[/tex] / (2000π rad/s) ≈ 3.80 × [tex]10^{-12[/tex] m

Therefore, the wavelength for waves with a displacement amplitude of 1.2 × 10^-8 m that produce a pressure amplitude of 1.5 × [tex]10^{-3[/tex] Pa is approximately 3.80 × [tex]10^{-12[/tex] m.

Part D: Again, we can use the same formula as in Part B, but solve for the frequency instead of the displacement amplitude. Rearranging the formula gives:

f = ω / 2π

Substituting the values given, we have:

ω = 2πf

[tex]A = 1.2 * 10^{-8 }m\\P = 1.5 * 10^{-3 }Pa[/tex]

ρ = 1.2 kg/m³

vsound = 344 m/s

A = P / (ρvsoundω) = P / (ρvsound × 2πf)

f = ω / 2π = P / (2πρvsoundA)

f =  ≈ 9589 Hz

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a 22.9 a current flows in a long, straight wire. find the strength of the resulting magnetic field at a distance of 48.1 cm from the wire.

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The strength of the resulting magnetic field at a distance of 48.1 cm from the wire with a 22.9 A current is approximately 1.93 x 10⁻⁵ T.

Detailed explanation below:

The formula to be used is
B = (μ₀ * I) / (2 * π * r)

Step 1: Convert the distance to meters.
r = 48.1 cm * (1 m / 100 cm) = 0.481 m


Step 2: Plug the values into the formula.
B = (4π x 10⁻⁷ T·m/A * 22.9 A) / (2 * π * 0.481 m)


Step 3: Simplify the equation and solve for B.
B ≈ (9.274 x 10⁻⁶ T·m) / (0.481 m)
B ≈ 1.93 x 10⁻⁵ T

So, the strength of the resulting magnetic field at a distance of 48.1 cm from the wire with a 22.9 A current is approximately 1.93 x 10⁻⁵ T.

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9. Block A is pulled at a constant velocity up an incline as shown. Toward which point will the force of
friction be directed?
C.
d.
t
1 TL.

Answers

C.

The block would try to push down due to it's weight.

venus' rotation is: select one: a. tidally locked to the sun (1:1 orbital resonance like the moon). b. the fastest of the terrestrial planets. c. retrograde and slow. d. similar to earth.

Answers

Venus' rotation is retrograde and slow.

This means that it rotates in the opposite direction to most other planets, including Earth, and takes a longer time to complete one full rotation. The reason for this is still not fully understood, but some theories suggest that it may have been caused by a collision with a large object in the past or by the gravitational influence of the sun and other planets. In any case, Venus' rotation is quite different from Earth's, which rotates in a prograde direction and completes one full rotation in about 24 hours.
Its rotation is also slow, taking about 243 Earth days to complete one rotation. The exact cause of this retrograde and slow rotation is still a subject of scientific research, but it is likely due to a combination of factors, such as gravitational interactions and past impacts.

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The correct option is C, Venus' rotation is retrograde and slow.

Venus is a planet in our solar system, named after the Roman goddess of love and beauty. In physics, Venus is primarily studied in the context of planetary science and astrophysics. Its physical characteristics include a diameter of approximately 12,104 kilometers, a mass of 4.87 x 10^24 kilograms, and a surface temperature of around 462 degrees Celsius, making it the hottest planet in our solar system.

Venus has a thick atmosphere primarily composed of carbon dioxide, which creates a strong greenhouse effect that traps heat and contributes to its high surface temperature. It also has a weak magnetic field and experiences a slow retrograde rotation, meaning it rotates in the opposite direction to most planets in our solar system. Venus' unique properties and proximity to Earth make it a valuable subject for scientific research and exploration, including missions by NASA and other space agencies.

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Consider a generator that rotates its 200 turn, 019 m diameter coil at 3200 rpm in a 0.75 T field Randomized Variables d-0.19 m f 3200 rpm B 0.75 T

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The induced EMF in the coil will vary sinusoidally between 0 and 0 volts, with a frequency of 3200/60 = 53.3 Hz.

Using the given information, we can calculate the EMF induced in the coil using the equation: EMF = NABωsinθ

where N is the number of turns in the coil, A is the area of the coil, B is the magnetic field strength, ω is the angular velocity of the coil, and θ is the angle between the magnetic field lines and the normal to the coil.

First, we need to find the area of the coil:

A = πr^2

A = π(0.19/2)^2

A = 0.028 m^2

Next, we can calculate the angular velocity:

ω = 2πf

ω = 2π(3200/60) (converting from rpm to Hz)

ω = 335.1 rad/s

Now we can calculate the EMF induced in the coil for a random value of θ: EMF = NABωsinθ

EMF = (200)(0.028)(0.75)(335.1)sinθ

EMF = 1418.8sinθ volts

The value of θ will vary randomly between 0 and 2π, so the maximum and minimum values of the induced EMF can be found by substituting these values into the equation above:

EMFmax = 1418.8sin(2π) = 0 volts

EMFmin = 1418.8sin(0) = 0 volts

Therefore, the induced EMF in the coil will vary sinusoidally between 0 and 0 volts, with a frequency of 3200/60 = 53.3 Hz.

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PRACTICE IT Use the worked example above to help you solve this problem. Find the height to which water would rise in a capillary tube with radius equal to 5.4 x 10-5 m. Assume that the contact angle between the water and the material of the tube is small enough to be considered zero. m EXERCISE HINTS: GETTING STARTED | I'M STUCK! Suppose ethyl alcohol rises 0.190 m in a thin tube. Estimate the radius of the tube, assuming the contact angle is approximately zero. (Use 0.022 N/m and 806 kg/m3 for the surface tension and density of ethyl alcohol respectively.) m Need Help? Read It

Answers

The height to which water would rise in the capillary tube with a radius of 5.4 x 10^-5 m is approximately 2.717 meters.

To find the height to which water would rise in a capillary tube with radius 5.4 x 10^-5 m, we can use the Jurin's Law formula:
h = (2 * S * cos(θ)) / (ρ * g * r)
where:
- h is the height of the liquid in the capillary tube
- S is the surface tension of the liquid (N/m) - for water, it's approximately 0.072 N/m
- θ is the contact angle between the liquid and the material of the tube - we assume it's zero, so cos(θ) = 1
- ρ is the density of the liquid (kg/m³) - for water, it's approximately 1000 kg/m³
- g is the acceleration due to gravity (9.81 m/s²)
- r is the radius of the capillary tube (5.4 x 10^-5 m)
Now we can plug in the values into the formula:
h = (2 * 0.072 * 1) / (1000 * 9.81 * 5.4 x 10^-5)
h ≈ 0.144 / (1000 * 9.81 * 5.4 x 10^-5)
h ≈ 0.144 / (5.2998 x 10^-2)
h ≈ 2.717 m
The height to which water would rise in the capillary tube with a radius of 5.4 x 10^-5 m is approximately 2.717 meters.

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On Jupiter, g = 25N/kg. Calculate the energy gained when a 2kg mass is lifted by 2m.

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The energy gained when a 2 kg mass is lifted by 2 m on Jupiter is 100 J.

To calculate the energy gained when a 2 kg mass is lifted by 2 m on Jupiter, we can use the formula:

E = mgh

where E is the energy gained, m is the mass, g is the acceleration due to gravity, and h is the height the object is lifted.

In this case, g = 25 N/kg, m = 2 kg, and h = 2 m. Substituting these values into the formula, we get:

E = (2 kg)(25 N/kg)(2 m) = 100 J

Therefore, the energy gained by Jupiter when a 2 kg mass is lifted by 2 m is 100 J.

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At a distance of 8 km from a radio transmitter the amplitude of electric field strength is measured to be 0.35 V/m. Assuming the transmitter radiates isotropically (a word we covered in class), what is the total power emitted by the transmitter, in Watts? (The area of a sphere is 4phir^2.)

Answers

The total power emitted by the transmitter, in Watts, is approximately 867,167 W. To find the total power emitted by the transmitter, we need to use the given information: distance from the transmitter (8 km), electric field strength (0.35 V/m), and the assumption that the transmitter radiates isotropically.

We also need the formula for the area of a sphere (4πr²).
Step 1: Convert the distance from kilometers to meters:
8 km = 8,000 meters

Step 2: Calculate the surface area of the sphere:
Area = 4πr² = 4π(8,000 m)² ≈ 804,247,719 m²

Step 3: Calculate the power density at the given distance (Power density = E²/120π):
Power density = (0.35 V/m)² / (120π) ≈ 1.08 × 10⁻³ W/m²

Step 4: Calculate the total power emitted by the transmitter (Power = Power density × Area):
Total power = 1.08 × 10⁻³ W/m² × 804,247,719 m² ≈ 867,167 W.

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To prepare homemade ice cream, a crank must be turned with a torque of 3.95N*m. How much work is required for each complete turn of the crank?

Answers

To determine the work required for each complete turn of the crank when preparing homemade ice cream with a torque of 3.95 N*m, you can follow these steps:

1. Identify the given values: torque (τ) = 3.95 N*m.
2. Remember that work (W) is calculated by multiplying the torque (τ) by the angle in radians (θ): W = τ * θ.
3. Since we want the work required for each complete turn of the crank, the angle (θ) should be in radians for a full rotation, which is 2π radians.
4. Plug the values into the equation: W = 3.95 N*m * 2π radians.

Your answer: To prepare homemade ice cream, if a crank must be turned with a torque of 3.95 N*m, the work required for each complete turn of the crank is approximately 24.83 J (joules).

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Initially, a single capacitance C1 is wired to a battery. Then capacitance C2 is added in parallel. Are (a) the potential difference across C1 and (b) the charge q1 on C1 now more than, less than, or the same as previously? (c) Is the equivalent capacitance C12 of C1 and C2 more than, less than, or equal to C1? (d) Is the charge stored on C1 and C2 together more than, less than, or equal to the charge stored previously on C1? (e)Repeat Question 5 for C2 added in series rather than in parallel. i only care for e part and please with the full answer so i can understand why

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Initially, a single capacitance C1 is wired to a battery. Then capacitance C2 is added in series.

(e) When capacitance C2 is added in series to capacitance C1:the equivalent capacitance C12 of C1 and C2 is less than C1, and the equivalent capacitance C12 = (C1C2)/(C1 + C2)

As, the capacitances are in series, and the total potential difference V across them would be equal to the sum of the potential differences across them.

So, the potential difference across C1 will be less than the previous potential difference across C1 when only capacitance C1 was connected to the battery.

The formula for potential difference across capacitance C1 would be: V = Q1/C1, where Q1 is the charge stored in capacitance C1.

As the potential difference V decreases and C1 remains the same, the charge Q1 on C1 would also decrease. Thus, (i) the potential difference across C1 and (ii) the charge q1 on C1 is now less than previously.

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A resistor with R1 = 25 ohms is connected to a battery that has negligible internal resistance and electrical energy is dissipated by R1 at a rate of 36Watts. If a second resistor with R2 = 15ohms is connected in series with R1, what is the total rate at which electrial energy is dissipated by the two resistors?

Answers

The total rate at which electrical energy is dissipated by the two resistors connected in series is 57.6 Watts.

Given that R1 = 25 ohms, and the electrical energy dissipation rate for R1 is 36 Watts, we can first find the current (I) flowing through the resistor using the power formula: P = I²× R

1. Solve for I: I = sqrt(P / R) = sqrt(36 / 25) = 1.2 A

Now, let's connect a second resistor, R2 = 15 ohms, in series with R1. In a series connection, the total resistance is the sum of the individual resistances.

2. Calculate total resistance (R_total): R_total = R1 + R2 = 25 + 15 = 40 ohms

Since the resistors are in series, the same current (1.2 A) will flow through both resistors. Now, we can find the total power dissipation using the formula P_total = I² ×R_total:

3. Calculate P_total: P_total = (1.2)² × 40 = 1.44 × 40 = 57.6 Watts

So, the total rate at which electrical energy is dissipated by the two resistors connected in series is 57.6 Watts.

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A standing electromagnetic wave in a certain material has a frequency 2.20 × 10^10 Hz. The nodal planes of B⃗ are 4.35 mm apart. Find the wavelength of the wave in this material. Find the distance between adjacent nodal planes of the E⃗ field. Find the speed of propagation of the wave.

Answers

The wavelength (λ) of the wave can be found using the formula λ = c/f, where c is the speed of light in vacuum (3 × 10^8 m/s) and f is the frequency. Substituting the given values, we get:

λ = (3 × 10^8 m/s)/(2.20 × 10^10 Hz) = 0.0136 m = 13.6 mm

The distance between adjacent nodal planes of the E⃗ field (which is perpendicular to the B⃗ field) is half the wavelength, so it is:

(1/2)λ = (1/2)(0.0136 m) = 0.0068 m = 6.8 mm

The speed of propagation of the wave can be found using the formula v = fλ, where v is the speed and f and λ are the frequency and wavelength, respectively. Substituting the given values, we get:

v = (2.20 × 10^10 Hz)(0.0136 m) = 2.99 × 10^8 m/s

Note that the speed of propagation in a material can be different from the speed of light in vacuum, which is why we use the given frequency and nodal plane separation to calculate the wavelength and speed in this specific material.
Given the frequency of the standing electromagnetic wave is 2.20 × 10^10 Hz, and the distance between the nodal planes of the magnetic field (B⃗) is 4.35 mm.

1. To find the wavelength of the wave in this material, we can use the relationship between the distance between nodal planes and wavelength: the distance between nodal planes is half the wavelength. Therefore:

Wavelength (λ) = 2 * distance between nodal planes
λ = 2 * 4.35 mm
λ = 8.70 mm

2. The distance between adjacent nodal planes of the electric field (E⃗) is the same as the distance between the nodal planes of the magnetic field (B⃗), which is 4.35 mm.

3. To find the speed of propagation of the wave, we can use the formula:

Speed (v) = Frequency (f) * Wavelength (λ)
v = 2.20 × 10^10 Hz * 8.70 × 10^-3 m (converting mm to meters)
v = 1.914 × 10^8 m/s

In summary, the wavelength of the wave in this material is 8.70 mm, the distance between adjacent nodal planes of the E⃗ field is 4.35 mm, and the speed of propagation of the wave is 1.914 × 10^8 m/s.

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a discus thrower accelerates a discus from rest to a speed of 25.9 m/s by whirling it through 1.30 rev. assume the discus moves on the arc of a circle 1.04 m in radius.(a) Calculate the final angular speed of the discus._______ rad/s(b) Determine the magnitude of the angular acceleration of the discus, assuming it to be constant._______ rad/s2

Answers

The final angular speed of the discus is 113.8 rad/s, and the magnitude of the angular acceleration of the discus is 347.6 rad/s².

To find the final angular speed of the discus, we can use the equation:

ω² = ω0² + 2αθ

where ω will be the final angular speed, ω0 will be the initial angular speed (which is zero), α will be the angular acceleration, and θ is the angle through which the discus is whirled.

We know that θ = 1.30 rev, which is equivalent to 2π(1.30) = 8.168 radians, and the radius of the circle on which the discus moves is 1.04 m. Therefore, the distance traveled by the discus is;

s = rθ = (1.04 m)(8.168 rad) = 8.502 m

We also know that the final speed of the discus is 25.9 m/s, so we can find the time it takes to reach this speed;

v = at

25.9 m/s = a t

t = 25.9/a

where a is the linear acceleration of the discus.

Since the distance traveled by the discus is equal to the circumference of the circle on which it moves, we can find the time it takes to travel this distance;

t = s/v = 8.502 m / 25.9 m/s = 0.328 s

Therefore, we have;

t = 25.9/a

0.328 s = 25.9/a

a = 79.02 m/s²

Now we can use the equation above to find ω;

ω² = 2αθ

ω² = 2(79.02 m/s²)(8.168 rad)

ω² = 12945.76

ω = 113.8 rad/s

Therefore, the final angular speed of the discus will be 113.8 rad/s.

To find the angular acceleration of the discus, we can use the equation;

α = (ω - ω0) / t

where ω will be the final angular speed, ω0 will be the initial angular speed (which is zero), and t is the time it takes for the discus to reach this speed.

We already know that ω = 113.8 rad/s and that t = 0.328 s, so we have;

α = (113.8 rad/s - 0 rad/s) / 0.328 s

α = 347.6 rad/s²

Therefore, the magnitude of the angular acceleration of the discus is 347.6 rad/s².

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what is the resistance of a 20.4 −m-long piece of 12-gauge copper wire having a 2.047 −mm diameter? the resistivity of copper is 1.61 ×10−8ωm.

Answers

Answer: 3.24 * 10^-4 ohms

Explanation:

For this question, we will use the equation R = p L/A. R represents resisatnce, p is resistivity, L is length, and A is area.

p = 1.61 * 10^-8 ohm-meters

L = 20.4 m

A = (area of a circle)

- Convert diameter into radius (and the correct units): 2.047/2 * 10 ^-3.

Now plug them into the equation.

3. an ac circuit is powering an electric heater (i.e., pure resistance, pf = 1.0). assume the voltage is 120 v and the current draw is 10 a. compute the apparent power and real power

Answers

The apparent power (S) is the total power in an AC circuit is 1200 VA, while the real power (P) is the power that is actually used to perform useful work, such as generating heat in the case of an electric heater is 1200 W.

In an AC circuit powering an electric heater, the apparent power (S) and real power (P) can be calculated using the formulas:

Apparent power (S) = Voltage (V) × Current (I)

Real power (P) = Apparent power (S) × Power factor (PF)

Given that the voltage (V) is 120 V and the current draw (I) is 10 A, we can substitute these values into the formulas to compute the apparent power and real power.

Apparent power (S) = 120 V × 10 A = 1200 VA (volt-amperes)

The apparent power (S) represents the total power in the circuit, which includes both the real power (P) and the reactive power (Q) due to the inductance or capacitance in the circuit.

The power factor (PF) is given as 1.0, which indicates that the circuit has a purely resistive load (the electric heater), and there is no reactive power component. Therefore, the real power (P) is equal to the apparent power (S).

Real power (P) = Apparent power (S) × Power factor (PF) = 1200 VA × 1.0 = 1200 W (watts)

The real power (P) represents the actual power consumed by the electric heater and is the power that is used to generate heat. It is the power that is useful and converted into the desired output (heat) in this case.

In summary, the power factor (PF) indicates the efficiency of power utilization in the circuit, with a higher power factor indicating a more efficient utilization of power.

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Conservation of Momentum states Select one: o When an object decreases in momentum, then some other object in the same system will increase in momentum. o is not observed in the universe to be violated given that all objects can be observed. O is none of these because Momentum is never conserved. O That the total momentum of an isolated system remains constant. O is like the principal for Conservation of Energy.

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Conservation of Momentum states d. That the total momentum of an isolated system remains constant

This means that in a closed system where no external forces are acting, the total momentum of the system will remain constant. This principle is similar to the principle of conservation of energy, where the total energy of a closed system remains constant. Momentum is a property of moving objects and is calculated by multiplying the mass of an object by its velocity.

If an object in a system loses momentum, another object in the same system must gain an equal amount of momentum to maintain the total momentum of the system. This principle is observed in all systems, from subatomic particles to celestial bodies. Understanding the conservation of momentum is essential in fields such as physics and engineering, as it can help predict the behavior of systems and the outcomes of collisions or other interactions between objects. Conservation of Momentum states d. that the total momentum of an isolated system remains constant.

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For uniform circular motion, the net forcea. is tangent to the circle.b. points toward the center of the circle.c. is zero.d. points toward the outside of the circle

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The net force is the last motion characteristic for an item moving uniformly in a circle. Such an object is subject to a net force that is pointed in the direction of the circle's center. The net force is referred to as a centripetal or inward force.

We shall show that in circular motion, the direction of velocity is always parallel to the circle, unlike linear motion, where velocity and acceleration are directed along the line of motion. This implies that the direction of the velocity changes continuously while the object moves around a circle.

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Guillaume puts a bottle of soft drink in a refrigerator and leaves it there until its temperature has dropped 18.7 K.Part A:What is the magnitude of its temperature change |δt|= 18.7 k in degrees celsius?Answer: ____Part B:What is the magnitude of the temperature change (change in T = 18.7 K) in degrees Fahrenheit?

Answers

The magnitude of the temperature change in degrees Celsius is |δt| = 18.7 °C

The magnitude of the temperature change in degrees Fahrenheit is 33.66 °F



Part A: To find the magnitude of the temperature change in degrees Celsius, we can use the fact that 1 Kelvin (K) is equal to 1 degree Celsius (°C). So, for a change of 18.7 K, the change in degrees Celsius will be the same.
|δt| = 18.7 °C
Part B: To find the magnitude of the temperature change in degrees Fahrenheit, we can use the conversion formula between Celsius and Fahrenheit, which is F = (9/5)C. In this case, we only need to find the change in temperature, not the actual temperature. Therefore, we can apply the conversion factor to the temperature change in Celsius:

Change in Fahrenheit = (9/5) ×Change in Celsius
Change in Fahrenheit = (9/5) ×18.7 °C

Now, multiply 18.7 by 9/5:

Change in Fahrenheit = 33.66 °F

The magnitude of the temperature change in degrees Fahrenheit is 33.66 °F.

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what is the linear speed of an outer horse on the carousel, which is 2.55 m from the axis of rotation]

Answers

The linear speed of an outer horse on the carousel can be calculated using the formula v = rω, where v is the linear speed, r is the distance from the axis of rotation, and ω is the angular velocity. Assuming that the carousel is rotating at a constant speed, we can use the formula v = rω to find the linear speed of the outer horse.

Given that the distance from the axis of rotation to the outer horse is 2.55 m, we can plug this value into the formula to get:

v = rω
v = (2.55 m)(ω)

However, we still need to find the value of ω. To do this, we need to know the period of rotation, which is the time it takes for the carousel to complete one full rotation. Let's assume that the period is 10 seconds.

The formula for angular velocity is ω = 2π/T, where T is the period of rotation. Plugging in the values we know, we get:

ω = 2π/T
ω = 2π/10 s
ω = 0.628 rad/s

Now we can use the formula v = rω to find the linear   linear

v = (2.55 m)(0.628 rad/s)
v = 1.6 m/s

Therefore, the linear speed of the outer horse on the carousel is 1.6 m/s.

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if a = 12i - 16j and b = -24i ; 10j, what is the direction of the vector c = 2a - b?

Answers

The direction of the vector c = 48i - 42j is approximately -41.19 degrees. Since the angle is negative, it means the vector c is in the fourth quadrant.

To find the direction of the vector c = 2a - b, we first need to calculate the components of the new vector c.
1. Multiply vector a by 2:
2a = 2(12i - 16j) = 24i - 32j
2. Subtract vector b from the result of step 1:
c = 2a - b = (24i - 32j) - (-24i + 10j) = 24i - 32j + 24i - 10j
3. Combine like terms:
c = 48i - 42j
Now that we have the components of vector c, we can find its direction. The direction of a vector can be calculated using the tangent inverse function (arctan):
θ = arctan(opposite/adjacent) = arctan(c_j/c_i) = arctan((-42)/48)
Use a calculator to find the arctan value:
θ ≈ -41.19 degrees

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Suppose you now grab the edge of thewheel with your hand, stopping it from spinning.
What happens to themerry-go-round?
It remainsat rest.
It begins torotate counterclockwise (as observed from above).
It begins torotate clockwise (as observed from above).

Answers

The merry-go-round stops spinning. When you grab the edge of the merry-go-round wheel with your hand, the friction force between your hand and the wheel causes the wheel to slow down and eventually come to a stop.

The direction of rotation before you stopped the wheel will determine the direction it rotates after you stop it.

If the wheel was rotating clockwise before you stopped it, it will rotate counterclockwise after you stop it, and vice versa.

This is due to the conservation of angular momentum, which states that the total amount of angular momentum in a closed system remains constant unless acted upon by an external torque.

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A lens is made of glass having an index of refraction of 1.5. One side of the lens is flat, and the other is convex with a radius of curvature of 20cm. (a) Find the focal length of the lens. (b) If and object is placed 40 cm in front of the lens, where is the image?

Answers

The focal length of the lens is 40 cm, and the image is located at infinity.

The focal length of a lens can be determined using the lensmaker's equation;

1/f=(n - 1) × (1/R₁ - 1/R₂)

where f is the focal length of the lens, n is the refractive index of the lens material (in this case, n = 1.5), R₁ is the radius of curvature of one side of the lens (in this case, R₁ = infinity for the flat side), and R₂ is the radius of curvature of the other side of the lens (in this case, R₂ = 20 cm for the convex side).

Plugging in the values, we get;

1/f = (1.5 - 1) × (1/infinity - 1/20)

1/f = 0.5 × (-1/20)

1/f = -0.025

f = -40 cm

Note that the negative sign indicates that the lens is a converging lens (i.e., it brings parallel light rays to a focus).

Therefore, the focal length of the lens will be 40 cm.

To find the location of the image formed by the lens, we can use the thin lens equation;

1/o + 1/i = 1/f

where o is the object distance (the distance of the object from the lens), i is the image distance (the distance of the image from the lens), and f is the focal length of the lens.

Plugging in the values, we get;

1/40 + 1/i = 1/40

1/i = 0

This indicates that the image is formed at infinity (i.e., the light rays are parallel after passing through the lens).

Therefore, the image is located at infinity.

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three resistors with individual values of 4.0 ω, 6.0 ω and 10.0 ω, respectively, are connected in parallel to a 12-v battery. what is the total current flowing in this circuit? 6.2 a .6 a 20 a 1.94 a

Answers

The total current flowing in the circuit is approximately 6.2 A.

To calculate the total current flowing in a parallel circuit with resistors, you first need to find the equivalent resistance (Req) using the formula:

1/Req = 1/R1 + 1/R2 + 1/R3

In this case, R1 = 4.0 ω, R2 = 6.0 ω, and R3 = 10.0 ω.

1/Req = 1/4.0 + 1/6.0 + 1/10.0
1/Req = 0.25 + 0.1667 + 0.1
1/Req = 0.5167

Now, find the equivalent resistance:
Req = 1 / 0.5167 ≈ 1.935 ω

Next, apply Ohm's Law to calculate the total current (I) using the formula:

I = V / Req

Here, V = 12V (battery voltage) and Req ≈ 1.935 ω.

I = 12V / 1.935 ω ≈ 6.2 A

Therefore, the total current flowing in the circuit is approximately 6.2 A.

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at 11 °c, the kinetic energy per molecule in a room is kave.

Answers

At 11 °C, the kinetic energy per molecule in a room is kave = 6.21 x 10^-21 J.

Why the kinetic energy is per molecule in a gas?

The kinetic energy per molecule in a gas is given by the formula:

KE = (3/2) kT

where KE is the kinetic energy per molecule, k is the Boltzmann constant (1.38 x 10^-23 J/K), and T is the temperature in Kelvin.

To convert a temperature from Celsius to Kelvin, we need to add 273.15 to the Celsius temperature.

So if the temperature is 11 °C, then the temperature in Kelvin is:

T = 11 °C + 273.15 = 284.15 K

Substituting this value into the formula for kinetic energy per molecule, we get:

KE = (3/2) kT = (3/2) (1.38 x 10^-23 J/K) (284.15 K)

KE = 6.21 x 10^-21 J

Therefore, at 11 °C, the kinetic energy per molecule in a room is kave = 6.21 x 10^-21 J.

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This plot shows three blackbody spectra, for T = 5000, 400
The spectrum for T=4000 K
None of these spectra will produce blue light.
The spectrum for T=3000 K
The spectrum for T=5000 K
Among the blackbody spectra shown in Question 5, which one produces more light in the infrared part of the spectrum?
Group of answer choices
The spectrum for T=5000 K
None of these spectra will produce infrared light.
The spectrum for T=4000 K
The spectrum for T=3000 K
Among the blackbody spectra shown in Question 5, which one will produce more light in the X-ray part of the spectrum (at a wavelength of 0.001 microns)?
Group of answer choices
The spectrum for T=3000 K
None of these spectra will produce X-ray light.
The spectrum for T=4000 K
The spectrum for T=5000 K0, and 3000 K. Which of these spectra produces more light in the blue part of the visible spectrum?

Answers

None of these spectra will produce significant X-ray light, as the temperatures are not high enough to emit light at such short wavelengths (0.001 microns).

The spectrum for T=5000 K produces more light in the blue part of the visible spectrum.
The spectrum for T=5000 K produces more light in the blue part of the visible spectrum.

Among the blackbody spectra shown in Question 5, the spectrum for T=3000 K produces more light in the infrared part of the spectrum.

None of these spectra will produce significant X-ray light, as the temperatures are not high enough to emit light at such short wavelengths (0.001 microns).

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The scientist first credited for discovering the concept of inertia was Select one: a. Newton. b. Aristotle. c. Galileo. d. Copernicus

Answers

The scientist first credited for discovering the concept of inertia was Galileo. Option c is correct.

Galileo was an Italian physicist, mathematician, and astronomer who lived in the late 16th and early 17th century. He was one of the first scientists to study motion and is credited with discovering the concept of inertia, which is the tendency of a body at rest to remain at rest or a body in motion to remain in motion in a straight line at a constant velocity unless acted upon by a force.

Galileo discovered this concept through his experiments with moving objects, including rolling balls and falling objects, and his observations of the movements of the planets. His work laid the foundation for Isaac Newton's laws of motion, which are still used today to describe the behavior of objects in motion. Hence Option c is correct.

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Two 3.7-uF capacitors, two 2.0kohm resistors, and a 16.0-V source are connected in series.Starting from the uncharged state, how long does it take for the current to drop from its initial value to 1.30mA ?

Answers

It takes 4.7ms for the current to drop from its initial value to 1.30mA.

We can solve for the time t when the current drops to 1.30mA by setting I(t) equal to 1.30mA and solving for t:

[tex]1.30mA = I0e^(-t/\tau)[/tex]

ln(1.30mA/I0) = -t/τ

Solving for t, we get:

t = -ln(1.30mA/I0) * τ

I0 = V/R = 16.0V / 4.0kohm = 4.0mA

Substituting into the equation for t, we get:

t = -ln(1.30mA/4.0mA) * 7.4ms = 4.7ms

Current refers to the flow of electric charge in a circuit or medium. It is measured in amperes (A) and is denoted by the symbol "I." The flow of current can be either direct or alternating. Direct current (DC) flows continuously in one direction, while alternating current (AC) changes direction periodically.

The flow of current is facilitated by the presence of a voltage difference or potential difference between two points in a circuit or medium. This voltage difference causes electrons to flow from a higher potential to a lower potential, thereby creating a flow of current. The rate of flow of current is dependent on the resistance of the medium through which it flows.

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An electric motor on a full electric vehicle operates on a 350 V battery pack and has 60kWh energy. The vehicle consumes 200Wh/km.
A) how many kilometers can the car drive on a fully charged battery?
B) If the battery current drain during driving is at 100 A, find how many hours in the car and drive at this discharge current. assume the voltage of the battery during driving remains at 350 V.
C) how much does it cost to charge the battery pack if electricity cost is 0.15 cents per kWh

Answers

A) To calculate the number of kilometers the car can drive on a fully charged battery, we need to divide the total energy of the battery (60 kWh) by the energy consumed per kilometer (200 Wh/km).

60,000 Wh / 200 Wh/km = 300 km

Therefore, the car can drive 300 kilometers on a fully charged battery.

B) If the battery current drain during driving is at 100 A, we can calculate the number of hours the car can drive at this discharge current by dividing the total energy of the battery (60 kWh) by the power consumed (voltage x current).

P = V x I

P = 350 V x 100 A = 35,000 W

60,000 Wh / 35,000 W = 1.7 hours

Therefore, the car can drive for 1.7 hours at a discharge current of 100 A.

C) If the electricity cost is 0.15 cents per kWh, we can calculate the cost to charge the battery pack by multiplying the energy of the battery (60 kWh) by the electricity cost (0.15 cents/kWh) and converting it to dollars.

60 kWh x 0.15 cents/kWh = 9 dollars

Therefore, it costs 9 dollars to charge the battery pack at an electricity cost of 0.15 cents per kWh.
Hi there! I'd be happy to help you with your electric vehicle question.

A) To determine how many kilometers the car can drive on a fully charged battery, divide the battery energy by the vehicle's energy consumption:

60 kWh / (200 Wh/km) = (60,000 Wh) / (200 Wh/km) = 300 km

The car can drive 300 kilometers on a fully charged battery.

B) To find how many hours the car can drive at a discharge current of 100 A, first calculate the power being used:

Power = Voltage x Current = 350 V x 100 A = 35,000 W (or 35 kW)

Next, divide the battery energy by the power being used:

60 kWh / 35 kW = 1.714 hours

The car can drive for 1.714 hours at this discharge current.

C) To calculate the cost to charge the battery pack, multiply the battery energy by the electricity cost:

60 kWh x $0.15/kWh = $9

It costs $9 to charge the battery pack.

I hope this helps! If you have any further questions, feel free to ask.

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most dc motors with three phases only energize two of the three at any given time. which of the three phases is de-energized and why?

Answers

When a DC motor with three phases is in operation, it is true that only two of the three phases are energized at any given time. The specific phase that is de-energized depends on the position of the rotor.

The rotor is attracted to the magnetic field produced by the energized phases, so as the rotor rotates, the phases that are energized change in a specific sequence. This sequence is controlled by the motor controller and is designed to produce smooth and efficient operation of the motor.

Therefore, the phase that is de-energized at any given time is determined by the controller's sequence and the position of the rotor.

A direct current (DC) motor is a type of electric machine that converts electrical energy into mechanical energy. DC motors take electrical power through direct current, and convert this energy into mechanical rotation.

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in a collection of these objects excited by an electron beam, all five states are occupied. what are the possible energies of photons emitted?Indicate the corresponding transitions on the diagram. -1 eV___ -5 eV ___ -8 eV ____ -10 eV ____ -20 eV ____

Answers

The possible energies of photons emitted would be 2 eV, 3 eV, 5 eV, 10 eV, 12 eV, 15 eV, and 19 eV. The corresponding transitions on the diagram would be:

2 eV: State 3 to State 4

3 eV: State 2 to State 3

5 eV: State 2 to State 4

10 eV: State 4 to State 5

12 eV: State 3 to State 5

15 eV: State 2 to State 5

19 eV: State 1 to State 5

Transitions are words or phrases that connect different ideas within a piece of writing. They are used to help the reader move from one idea to another in a smooth and logical way. Transitions are an important part of writing because they help to create coherence and flow, making the text easier to read and understand.

Examples of transition words and phrases include "however," "moreover," "in addition," "on the other hand," "therefore," "consequently," "likewise," and "for instance." Using transitions in writing can improve the overall quality of the text by making it more organized, clear, and easy to follow. Transitions can be used in any type of writing, from academic essays to business reports to creative writing.

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