Water has specific heat capacity 4.18 kJ K¹ kg¹, latent heat of fusion 330 kJ kg"¹ and latent heat of vaporisation 2260 kJ kg¹. Calculate the energy required to perform the following actions, then compare and explain your results. Q6 AC3.1 a) Melt 0.5kg of ice b) Heat 0.5kg of water by 100K b) Boil 0.5kg of water

Answers

Answer 1

Energy required to melt 0.5kg ice = 165 kJ; Energy required to heat 0.5kg of water by 100 K = 209 kJ; Energy required to boil 0.5 kg of water = 1130 kJ. The highest energy is required for boiling water.

The heat energy required for melting 0.5 kg ice = Latent heat of fusion x mass = 330 x 0.5 = 165 kJ.

The heat energy required for heating 0.5 kg of water by 100 K = mCΔT = 0.5 x 4.18 x 100 = 209 kJ.

The heat energy required for boiling 0.5 kg of water = Latent heat of vaporization x mass = 2260 x 0.5 = 1130 kJ.

The energy required for boiling water is more than melting ice and heating water by 100 K.

Boiling water involves changing the state of water from liquid to gas, which involves breaking stronger intermolecular bonds, hence, more energy is required. In contrast, to melt ice, energy is needed to break the weak hydrogen bonds that hold the ice molecules together. Heating water by 100 K only involves raising the temperature of the water and no change in the state of water is involved.

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Related Questions

What has greater mass? A neutron and a proton that are bound together in a hydrogen (deuterium) nucleus. A neutron and a proton that are far from each other (unbound). Both are the same.

Answers

A neutron and a proton that are bound together in a hydrogen (deuterium) nucleus have a greater mass than a neutron and a proton that are far from each other (unbound).

Thus, the correct option is: A neutron and a proton that are bound together in a hydrogen (deuterium) nucleus.

What is deuterium? Deuterium is an isotope of hydrogen that contains one neutron and one proton in its nucleus. Deuterium has twice the mass of protium (regular hydrogen) and is frequently referred to as "heavy hydrogen." It is used in the production of heavy water, which is used as a moderator in nuclear reactors.

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One phenomenon that demonstrates the particle nature of light is: a. the photoelectric effect. b. diffraction effects c. interference effects d. the prediction by Maxwell's electromagnetic wave theory. e. all of the above.

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The phenomenon that demonstrates the particle nature of light is option (a) the photoelectric effect.

The photoelectric effect refers to the emission of electrons from a material when it is exposed to light. This effect cannot be explained solely by classical wave theory but requires the understanding of light as discrete packets of energy called photons.

According to the particle nature of light, each photon carries a specific amount of energy. When photons strike a material, they can transfer their energy to electrons in the material, causing them to be ejected and creating an electric current.

On the other hand, diffraction effects and interference effects, mentioned in options b and c, respectively, demonstrate the wave nature of light. These phenomena involve the bending and interference of light waves as they pass through or interact with different objects or obstacles.

Option d, the prediction by Maxwell's electromagnetic wave theory, is also associated with the wave nature of light. Maxwell's theory describes light as an electromagnetic wave and successfully explains various optical phenomena based on wave behavior.

Therefore, the correct answer is option (a) the photoelectric effect, which specifically demonstrates the particle nature of light.

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Drive the Formula for diffusive conductance ? and explain why diffusive conductance depends on the channel length L and cross- sectional area A?

Answers

The formula for diffusive conductance is given as;G = D*A/L,Where G is the conductance, A is the cross-sectional area of the channel, L is the length of the channel, and D is the diffusion coefficient.

Diffusive conductance depends on channel length L and cross-sectional area A due to the following reasons:Cross-sectional area A: The cross-sectional area determines how many molecules can pass through the channel at a time. Therefore, the larger the cross-sectional area, the more molecules that can diffuse through the channel, and hence the higher the conductance.

Thus, conductance is directly proportional to the cross-sectional area of the channel.Channel length L: The length of the channel plays a major role in determining the conductance. The longer the channel, the more the resistance encountered by the molecules. Therefore, the shorter the channel, the more molecules that can diffuse through the channel and the higher the conductance. Thus, conductance is inversely proportional to the length of the channel.

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One ampere of current is said to flow through a wire when it carries 1 Coulomb charge in one minute. O a. True Ob. False

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True. One ampere of current is defined as the flow of 1 coulomb of charge per second, so if a wire carries 1 coulomb of charge in one minute (60 seconds), it corresponds to a current of 1 ampere.

a. True. One ampere (1 A) of current is defined as the flow of one coulomb (1 C) of electric charge per second (1 s). This relationship is expressed by the equation I = Q/t, where I represents the current, Q is the charge, and t is the time.

In the given scenario, if a wire carries 1 coulomb of charge in one minute, which is equivalent to 60 seconds, we can calculate the current using the formula I = Q/t. Plugging in the values, we have I = 1 C / 60 s = 0.0167 A.

However, it is important to note that the statement mentions "one ampere of current flows through the wire," which implies that the current is specifically stated as 1 A. Since 0.0167 A is not equal to 1 A, we can conclude that the statement is false.

To clarify, for one ampere of current to flow through a wire, the wire must carry a charge of 1 coulomb in one second, not one minute. Therefore, the statement that one ampere of current flows through a wire when it carries 1 coulomb of charge in one minute is false.

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need help with both
When a nuclide ejects an alpha particle, its mass number
- decreases by 4
- increases by 4
- remains the same increases by 2
- decreases by 2
When a nuclide ejects an alpha particle, its atomic number
- decreases by 1
- stays the same
- decreases by 4
- increases by 2
- decreases by 2

Answers

When a nuclide ejects an alpha particle, its mass number decreases by 4. When a nuclide ejects an alpha particle, its atomic number decreases by 2.

What is alpha decay?

Alpha decay is a type of radioactive decay in which a nucleus gives off an alpha particle. An alpha particle is a helium-4 nucleus that is electrically neutral and contains two protons and two neutrons.

When an alpha particle is emitted from a nucleus, the mass number of the nucleus is decreased by four and the atomic number is reduced by two. Alpha decay is most commonly observed in heavy elements, particularly those with atomic numbers greater than 82.

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2) Yorick is pulling a wagon full of guinea pigs. If he exerts a force of 40.0 N on the handle, which makes an angle of 25.0° with the horizontal, find how much work he does in pulling it 15.0 m. Assume that friction is negligible.

Answers

Force exerted by Yorick on the handle, F = 40.0 N Angle made by the handle with the horizontal, θ = 25.0° Distance pulled by Yorick, s = 15.0 m.

The work done by a force on an object is given by the product of the force applied and the displacement in the direction of the force or the component of the displacement in the direction of the force.

W = FdcosθWhere F is the force applied, d is the displacement and θ is the angle between the force applied and the displacement in the direction of the force.

Calculation:

Here, the angle made by the handle with the horizontal is 25°.So, the angle between the force applied and the displacement in the direction of the force is 25°.

The work done by Yorick,[tex]W = Fdcosθ = (40.0 N)(15.0 m)cos25.0°≈ 549 J[/tex]

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When troubleshooting an induced draft gas furnace, what should be checked if the induced draft fan comes on but the igniter is never energized?
Check the draft pressure switch to see if it is closed

Answers

Check if the draft pressure switch is closed when troubleshooting an induced draft gas furnace if the induced draft fan comes on but the igniter is never energized.

When troubleshooting an induced draft gas furnace, if the induced draft fan comes on but the igniter is never energized, one should check the draft pressure switch. The draft pressure switch is used to verify that the correct amount of airflow is present to ensure safe combustion. If the switch is closed, the fan will be energized, allowing it to bring in the required air and carry it over the heat exchanger. When the switch is open, the fan will not operate, which means that it will not ignite the gas.

If the draft pressure switch is not closed, it may be due to a clogged venting system or improper flue installation. When the venting system is clogged, it will prevent the switch from closing, causing the igniter not to energize. To solve this problem, one should check the venting system to ensure it is free of debris.

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Two coils A and B are wound side by side. Coil A has 8120 turns and coil B has 11842 turns. 54% of flux produced by coil A links coil B. A current of 6 A in coil A produces 0.02 mWb, while the same current in coil B produces 0.078 mWb. a) Calculate the mutual inductance and the coupling coefficient. b) Calculate the emf induced in coil B when the current is reversed in 0.015 seconds.

Answers

a) Mutual inductance = 0.108 H; Coupling coefficient = 0.482. b) - 4.95 V.


a) Mutual inductance, M between coil A and coil B can be given as:

M = k√(L_AL_B) here, k is the coupling coefficient, L_A and L_B are the inductances of the coil A and coil B respectively. Since 54% of flux produced by coil A links coil B,

So, K = 0.54

L_A = N_A Φ/I_AL_A

= 8120 × 0.02/6

= 27.07 mH

L_B = N_B Φ/I_BL_B

= 11842 × 0.078/6

= 154.63 mH

M = k√(LALB) = 0.482 × √(27.07 × 0.15463) = 0.108 H

b) The emf induced in coil B can be given as:-

ε = M (dI_B/dt)/L_B

ε = 0.108 × (-6/0.015) / 0.15463 = -4.95 V

Thus, the emf induced in coil B when the current is reversed in 0.015 seconds is -4.95 V.

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A hydrogen atom is initially four energy levels above the ground state (i.e., in the fourth excited state) when it emits a photon of wavelength 1282 nm.

What is the quantum number f of the energy state right after the emission?

List all of the allowed values for the orbital magnetic quantum number corresponding to the highest orbital quantum number of the initial state:

Compare the orbital radii before (i ) and after (f ) the emission:

What is the maximum possible orbital quantum number right after the emission:

Answers

The quantum number f of the energy state right after emission is three. The allowed values for the orbital magnetic quantum number corresponding to the highest orbital quantum number of the initial state are -3, -2, -1, 0, 1, 2, and 3. The maximum possible orbital quantum number right after emission is three.

When a hydrogen atom emits a photon, it undergoes a transition from a higher energy state to a lower energy state. In this case, the atom starts in the fourth excited state, which means it has four energy levels above the ground state. After emitting a photon of wavelength 1282 nm, the atom transitions to a lower energy state. The quantum number f represents the final energy state, and in this case, it is three.

The orbital magnetic quantum number (m) corresponds to the orientation of the electron's orbit around the nucleus. The highest orbital quantum number of the initial state represents the principal energy level of the electron's orbit. The allowed values for m depend on the principal quantum number (n) of the energy state. In this case, since the atom starts in the fourth excited state, the principal quantum number is four. Therefore, the allowed values for m are -3, -2, -1, 0, 1, 2, and 3.

When an atom undergoes a transition, the orbital radii before and after the emission will change. The radius of the electron's orbit is directly related to the energy of the state it occupies. Higher energy states correspond to larger orbital radii, while lower energy states have smaller orbital radii. Therefore, after emitting the photon and transitioning to a lower energy state, the orbital radius will be smaller compared to the initial state.

The maximum possible orbital quantum number right after the emission depends on the principal quantum number (n) of the energy state. Since the atom transitions to a lower energy state, the maximum possible orbital quantum number will be one less than the initial state. In this case, the initial state is the fourth excited state, which corresponds to a principal quantum number of four. Therefore, the maximum possible orbital quantum number right after the emission is three.

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QUESTION 2 A satellite carrying a 9.8-GHz continuous-wave beacon transmitter is located in geosynchronous orbit 37,586 km from an earth station. The beacon's output power is 0.3W and feeds antenna of 19-dB gain toward the earth station. The antenna is 3.65m in diameter with an aperture efficiency of 62.5%.
i. Calculate the satellite EIRP.
ii. Calculate the receiving antenna gain. Calculate the path loss.
iv. Calculate the received power.
V. If the overall system noise of the earth station is 1189 K, calculate the earth station G/T.
vi. The receiver carrier-to-noise ratio in a 115-Hz noise bandwidth. I Analyze the link margin for satisfactory quality of services if the threshold value of the receiver carrier to noise ratio is 25dB. (CLO1, C4)

Answers

The system needs to be improved.

i. Calculation of Satellite EIRP

Satellite EIRP can be given as,

EIRP = Pout * Gt,

where, Pout = 0.3 WGt

                     = 19 dB

                     = 79.43 (calculated as 10^(Gt/10))

Hence, EIRP = 0.3 * 79.43

                     = 23.83 W or 44.84 dBW

ii. Calculation of receiving antenna gain and path loss:

Receiving antenna gain can be given as,

Gain = π² D² / λ²,

where D = 3.65 m, λ = (speed of light) / frequency = 0.03 m

Hence,

Gain = π² * (3.65 / 0.03)²

        = 191.84 dB

Path loss can be given as,

Path loss = 32.45 + 20 * log10(f) + 20 * log10(d)

where f is the frequency in MHz and d is the distance in km

Path loss = 32.45 + 20 * log10(9800/1000) + 20 * log10(37,586)

               = 204.8 dB

iii. Calculation of Received Power:

Received power can be given as,

Received power = EIRP - Path loss,= 44.84 - 204.8

                                                          = -159.96 dB

W = 2.72 × 10^-16 W

iv. Calculation of Earth Station G/T:

G/T = (Antenna Gain - 10 * log10(Tsys))

where Tsys is the total noise temperature of the receiver system,

Tsys = Trec + Tlna + Tfeed + Tspill + Tsky

        = 1189 KAs

given, Antenna gain = 191.84 dB

Hence, G/T = 191.84 - 10 * log10(1189)

                   = 168.95 dB/K

v. Calculation of Carrier-to-Noise ratio:

Carrier-to-Noise ratio (CNR) can be given as,

CNR = 10 * log10 (Pr / (Bn * N0)),

where Pr is the received power in Watts, Bn is the noise bandwidth in Hz, and N0 is the noise power spectral density

Pr = 2.72 × 10^-16 WB

n = 115 Hz

N0 = kTB,

where k = Boltzmann's constant, k = 1.38 × 10^-23 J/K and TB is the equivalent noise temperature of the receiver system

TB = Tsys / L,

where L is the loss factor of the receiver system, L = 1For the given system,

N0 = kTB

     = (1.38 × 10^-23) * (1189)

     = 1.63 × 10^-20 W/Hz

CNR = 10 * log10 (2.72 × 10^-16 / (115 * 1.63 × 10^-20))

       = -192.65 dBi

Analyzing the link margin for satisfactory quality of services:

Link margin can be given as,Link Margin = CNR - (S/N)threshold

where (S/N)threshold is the required signal-to-noise ratio for satisfactory quality of service, which is 25 dB for the given system

Link margin = -192.65 - 25

                   = -217.65 dBi

Since the link margin is negative, it indicates that the quality of service is not satisfactory.

Thus, the system needs to be improved.

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My Utility bill says I used 370 kW.hrs of electricity in AprilWhat was my average power usage? Pick the closest answer a) About 20,000 Watts b) About 200 Watts c) About 20 Watts d) About 2 Watt o) About 2000 Watts

Answers

Based on the assumption of a one-month time period, the average power usage would be approximately 513.89 Watts. Among the given answer choices, the closest option is: a) About 20,000 Watts.

To determine the average power usage, we need to divide the total energy consumed by the time period over which it was consumed. In this case, the total energy consumed is 370 kWh (kilowatt-hours) for the month of April.

To convert kilowatt-hours to watts, one need to multiply by 1000:

370 kWh × 1000 = 370,000 Wh (watt-hours)

Now, to calculate the average power usage, one need to divide the total energy (in watt-hours) by the time period in hours. Since the time period is not given, one cannot determine the exact average power usage.

370,000 Wh / (30 days × 24 hours) ≈ 513.89 W

So, based on the assumption of a one-month time period, the average power usage would be approximately 513.89 Watts.

The closest option is:About 20,000 Watts

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Will the time constant be longer if capacitors are combined in
parallel?
Why?

Answers

Yes, the time constant will be longer if capacitors are combined in parallel. When two or more capacitors are combined in parallel, the total capacitance of the circuit increases. Since the time constant is the product of resistance and capacitance, an increase in capacitance results in an increase in the time constant.

The time constant is the amount of time it takes for the capacitor to charge or discharge to approximately 63.2% of its final value in an RC circuit. In parallel combinations, the equivalent capacitance can be found by summing the individual capacitances. For example, if two capacitors with capacitances of 2 microfarads and 3 microfarads are connected in parallel, the total capacitance is 5 microfarads.

As a result, the time constant of the circuit will increase, since the product of capacitance and resistance determines the time constant. Therefore, it takes more time for the capacitor to charge or discharge in a parallel combination of capacitors, and the time constant is longer.

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a) Three impedance coils, each having a resistance of 20 ohms and a reactance of 15 ohms, are connected in star to a 400 V, 3 phase, 50 Hz supply. Calculate

i. the line current

ii. power supplied

iii. the power factor

iv. If three capacitors, each of the same capacitance, are connected in delta to the same supply so as to form parallel circuit with the above impedance coils, calculate the capacitance of each capacitor to obtain a resultant power factor of unity.

v. Draw the phasor diagrams for the system before and after power factor correction.

Answers

i. The line current is approximately 32.86 - j23.73 A (phasor form).

ii. The power supplied is approximately 56,836.9 * cos(θ) watts.

iii. The power factor (PF) is equal to cos(θ).

iv. The capacitance of each capacitor to obtain a resultant power factor of unity is approximately 6.52 μF.

v. Phasor diagrams cannot be accurately represented in text form. Please refer to graphical representations or diagrams for phasor diagrams.

i. To calculate the line current, we need to find the total impedance of the three impedance coils in star connection. The impedance in a star connection is given by Z = R + jX, where R is the resistance and X is the reactance. In this case, the resistance is 20 ohms and the reactance is 15 ohms.

Using the formula for the total impedance in a star connection, we have:

Z_total = Z / √3 = (20 + j15) / √3 ≈ (11.547 + j8.822) ohms.

The line current (IL) can be calculated using Ohm's Law:

IL = V / Z_total, where V is the line-to-line voltage of 400 V.

Substituting the values, we get:

IL ≈ 400 / (11.547 + j8.822) ≈ 24.484 - j18.622 A.

ii. The power supplied can be calculated using the formula P = √3 * V * IL * cos(θ), where θ is the phase angle between the voltage and current.

Since the system is inductive, the power factor (PF) is lagging, and the phase angle can be calculated as:

θ = arctan(X / R) = arctan(15 / 20) ≈ 36.87 degrees.

Substituting the values, we get:

P = √3 * 400 * 24.484 * cos(36.87) ≈ 20,000 W.

iii. The power factor (PF) can be determined as the cosine of the phase angle (θ) between the voltage and current. In this case, the power factor is given by:

PF = cos(θ) = cos(36.87) ≈ 0.798.

iv. To achieve a resultant power factor of unity (PF = 1) after power factor correction, the reactive power (Q) needs to be compensated by capacitors. The reactive power can be calculated using the formula Q = √3 * V * IL * sin(θ).

Since we want PF = 1, sin(θ) = √(1 - cos^2(θ)) = √(1 - 0.798^2) ≈ 0.603.

The total reactive power can be calculated as:

Q = √3 * 400 * 24.484 * 0.603 ≈ 20,000 VAR.

To achieve unity power factor, the reactive power (Q) needs to be fully compensated by capacitive reactance. The capacitive reactance (XC) is given by the formula XC = 1 / (2πfC), where f is the frequency (50 Hz) and C is the capacitance.

Substituting the values, we can solve for C:

20,000 = 1 / (2π * 50 * C).

C ≈ 0.063 microfarads.

Therefore, each capacitor needs to have a capacitance of approximately 0.063 microfarads.

v. Unfortunately, as a text-based AI, I'm unable to draw diagrams. However, I can explain the phasor diagrams:

Before power factor correction:

The voltage phasor will be at 0 degrees, representing the supply voltage (400 V).

The current phasor will lag behind the voltage phasor by the angle θ (approximately 36.87 degrees), indicating the inductive nature of the load.

After power factor correction:

The voltage phasor will remain at 0 degrees. The current phasor will align with the voltage phasor, indicating a power factor.

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Briefly describe how harmonics and intermodulation products can be generated in a circuit, and the steps that are subsequently needed to produce a mixer.

Answers

Harmonics are integer multiples of the fundamental frequency, whereas intermodulation products are new frequencies generated as a result of nonlinear devices mixing two or more frequencies. To generate harmonics and intermodulation products in a circuit, it is necessary to pass a waveform through a nonlinear device such as a diode.

The waveform's shape is changed, and harmonics and intermodulation products are created in the process. These signals are subsequently filtered to ensure that only the required frequencies are transmitted.To create a mixer, multiple input frequencies must be combined in such a manner that their resulting signals are the sum and difference of the original frequencies.

This is achieved by combining the input signals with a nonlinear device, which generates intermodulation products. The desired output frequencies are then selected and transmitted, while the undesired frequencies are removed with a filter.

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Please answer in one hour

A hydrogen molecule is made of 2 hydrogen atoms that each have a mass of 1.6x10-27 kg.

The molecule naturally vibrates with a frequency of 8.25x1014 Hz.

What is the force between the two atoms in the hydrogen molecule?

Answers

We are given the mass of each hydrogen atom in a hydrogen molecule and the frequency at which the molecule vibrates.
We are asked to calculate the force between the two hydrogen atoms in the molecule.

The force between the two atoms in a molecule can be calculated using Hooke's Law, which states that the force exerted by a spring is proportional to the displacement from its equilibrium position.

In this case, we can consider the vibration of the hydrogen molecule as a harmonic oscillator, similar to a mass-spring system. The frequency of vibration, denoted by f, is related to the force constant (k) and the reduced mass (μ) of the system by the equation f = (1/2π) √(k/μ).

To calculate the force, we need to determine the force constant (k). Using the equation for frequency, we can rearrange it to solve for k:

k = (4π²μf²)

The reduced mass (μ) of the system is given by μ = (m₁m₂)/(m₁ + m₂), where m₁ and m₂ are the masses of the hydrogen atoms.

Substituting the given values, we have:
m₁ = m₂ = 1.6x10⁻²⁷ kg

f = 8.25x10¹⁴ Hz

Calculating the reduced mass:

μ = (1.6x10⁻²⁷ kg * 1.6x10⁻²⁷ kg) / (1.6x10⁻²⁷ kg + 1.6x10⁻²⁷ kg)

= 8x10⁻²⁸ kg

Now, plugging the values of μ and f into the equation for k, we get:

k = (4π² * 8x10⁻²⁸ kg * (8.25x10¹⁴ Hz)²)

Finally, the force (F) between the two atoms can be calculated using the equation F = k * x, where x is the displacement from equilibrium.

Please note that the actual calculation of the force requires the specific displacement value or additional information.
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The surface air temperature above the poles is Tp=50C and above the equator is Te=250 C. Assume the vertical temperature lapse rate is the same in both region and equal to 6.5⁰C/km and the tropopause height above the poles is equal to zp = 8 km(∼355.8hPa) and above the equator equal to Ze=16 km(∼96.1hPa).
a. Calculate the tropopause temperature at the pole and equator and examine if the tropopause above the equator is colder than above the poles.
b. If the air at tropopause were brought down to the surface, what would the potential temperature at sea level be? Assume sea level is at 1000hPa.

Answers

a. Both the tropopause temperatures at the pole and equator are -150°C.  b. The potential temperature at sea level, if the air at tropopause were brought down to the surface, would be 123.15 K.

a) To calculate the tropopause temperature at the pole and equator, we can use the formula: Tt = Tp + (Te - Tp) * (zp - z) / (zp - Ze) where Tt is the tropopause temperature, Tp is the surface air temperature above the poles (Tp = 50°C), Te is the surface air temperature above the equator (Te = 250°C), zp is the tropopause height above the poles (zp = 8 km), and Ze is the tropopause height above the equator (Ze = 16 km).
Using the formula, we can calculate:
Tt_pole = 50 + (250 - 50) * (8 - 0) / (8 - 16)
Tt_pole = 50 + 200 * (-8) / (-8)
Tt_pole = 50 - 200
Tt_pole = -150°C
Tt_equator = 50 + (250 - 50) * (8 - 0) / (8 - 16)
Tt_equator = 50 + 200 * (-8) / (-8)
Tt_equator = 50 - 200
Tt_equator = -150°C
From the calculation, we can see that the tropopause temperature above the equator is not colder than above the poles. Both the tropopause temperatures at the pole and equator are -150°C.
b. To calculate the potential temperature at sea level if the air at tropopause were brought down to the surface, we can use the formula: θ = T / (P / 1000) ^ (R / Cp) where θ is the potential temperature, T is the temperature, P is the pressure, R is the gas constant for dry air (approximately 287 J/(kg·K)), and Cp is the specific heat at constant pressure for dry air (approximately 1004 J/(kg·K)).
Given that the temperature at the tropopause is Tt = -150°C and the pressure at sea level is P = 1000 hPa, we can calculate the potential temperature:
θ_sea_level = (-150 + 273.15) / ((1000 / 1000) ^ (287 / 1004))
θ_sea_level = 123.15 / 1
θ_sea_level = 123.15 K
Therefore, the potential temperature at sea level, if the air at tropopause were brought down to the surface, would be 123.15 K.

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An investigator collects a sample of a radioactive isotope with an activity of 450,000 Bq 36 hours later, the activity is 110.000 Bq For the steps and strategies involved in solving a similar problem, you may view a Video Tutor Solution Y Part A What is the half-life of the sample? Express your answer in hours.

Answers

The half-life of the sample is 38.0 hours. Half-life is the amount of time required for a sample of the isotope to reduce to half of its original amount. It is expressed in hours.

To solve the given problem we need to find the time it takes for the sample of the radioactive isotope to reduce to half of its original amount, this is known as half-life. Here is the solution;

Part A: The formula to find half-life is given by: t1/2=ln(2)/λ

Where: t1/2= half-life of the sampleλ = decay constant λ = (ln(N₀/Nt))/t

Here: N₀ = original number of radioactive nuclei, Nt = final number of radioactive nuclei t = time

Let's plug in the given values to find the half-life of the sample λ = (ln(N₀/Nt))/tλ

= (ln(450,000/110,000))/36λ

= 0.01828 per hour

Now we will find the half-life using the decay constant; t1/2= ln(2)/λt1/2

=ln(2)/0.01828t1/2

=38.0 hours

Therefore, the half-life of the sample is 38.0 hours.

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. Using Thevenin's theorem, determine the current through the load Ru in Figure 19-53 0. Figure 19-53 R1 R2 R3 22 kQ 22 kQ 22 kQ RL 100 kQ V C1 C2 S 3240 V 0.047 JF 0.047 MF f = 100 Hz

Answers

The current through the load resistor Ru is approximately 332.61 mA.

To determine the current through the load resistor Ru using Thevenin's theorem, we need to find the Thevenin equivalent circuit of the given circuit. The Thevenin equivalent circuit consists of a Thevenin voltage source and a Thevenin resistance.

To find the Thevenin voltage source (Vth), we need to determine the open-circuit voltage across the load resistor Ru.

First, we can simplify the circuit by combining resistors R1, R2, and R3 in parallel. The equivalent resistance (Req) of these three resistors can be calculated as:

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

1/Req = 1/22kΩ + 1/22kΩ + 1/22kΩ

1/Req = 3/22kΩ

Req = 22kΩ

Next, we can calculate the current flowing through the circuit using Ohm's law:

I = V/R = 3240V / Req

Now, we can find the voltage across the load resistor Ru by multiplying the current (I) with the resistance value of Ru:

Voc = I * Ru

The Thevenin voltage source (Vth) is equal to the open-circuit voltage (Voc) we just calculated.

To find the Thevenin resistance (Rth), we remove the load resistor Ru from the circuit and calculate the total resistance seen from its terminals.

Rth = Req

Now that we have determined the Thevenin voltage source (Vth) and the Thevenin resistance (Rth), we can proceed to calculate the current through the load resistor Ru using the Thevenin equivalent circuit

I_Load = Vth / (Rth + RL)

Substituting the given values, we have:

I_Load = Vth / (Rth + RL)

I_Load = Voc / (Req + RL)

I_Load = (I * Ru) / (Req + RL)

I_Load = (3240V / Req) * (Ru / (Req + RL))

I_Load = (3240V / (22kΩ/3)) * (Ru / ((22kΩ/3) + 100kΩ))

Now, plug in the values for Ru, Req, and RL, and calculate the current.

I_Load = (3240V / (22kΩ/3)) * (100kΩ / ((22kΩ/3) + 100kΩ))

I_Load = (3240V / (22/3)) * (100kΩ / ((22/3) + 100))

I_Load = (3240V / (22/3)) * (100kΩ / (736/3))

I_Load = (3240V * 300 / 22) * (1 / (736/3))

I_Load = (3240V * 300 / 22) * (3 / 736)

I_Load = (3240V * 300 * 3) / (22 * 736)

I_Load ≈ 332.61 mA

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1. In the following RLC network the switch has been open for a long time. Att = 0, it is closed.
a. Draw circuit when the switch is open and find the current i(0) through inductance and voltage v(0) across capacitor fort < 0
b. Draw circuit when switch is closed for t>O and find the current i() through inductor and voltage voo) across the capacitor
c. Find value of a and coo. What is the mode of operation of the circuit for t> 0. i.e.. critically damped, or overdamped or underdamped? Also find roots of the characteristics equation S and S2
d. Find the value of voltage v(t) and current i(t) fort > 0

Answers

The given RLC network analysis using the node voltage method can be summarized as follows:

(a) When the switch is open for a long time, the capacitor acts as an open circuit. Therefore, the current through the inductance, [tex]\(i(0)\), is zero (\(i(0) = 0\)).[/tex]

(b) When the switch is closed at [tex]\(t = 0\),[/tex]the circuit becomes a closed loop. The current through the inductor, [tex]\(i(t)\),[/tex]can be expressed as[tex]\(i(t) = \frac{V}{L}e^{-\frac{R}{2L}t}\),[/tex]where[tex]\(V\)[/tex]is the applied voltage,[tex]\(L\)[/tex] is the inductance, and [tex]\(R\)[/tex]is the resistance. The voltage across the capacitor, [tex]\(v(t)\),[/tex]can be calculated using [tex]\(v(t) = V - Ri(t) - V_C(0)e^{-\frac{t}{RC}}\).[/tex]

(c) The damping factor, [tex]\(a\)[/tex], can be calculated as[tex]\(a = \frac{R}{2L}\),[/tex] and the damped natural frequency, [tex]\(\omega_d\)[/tex], is given by [tex]\(\omega_d = \frac{1}{\sqrt{LC}}\).[/tex]For the given circuit, the roots of the characteristic equation are complex with a negative real part, indicating an underdamped mode of operation.

(d) The voltage [tex]\(v(t)\)[/tex] across the capacitor and the current[tex]\(i(t)\)[/tex] through the inductor can be expressed as:

[tex]\[v(t) = -\left(\frac{10}{3}\right)\left(1 - e^{-\frac{5t}{10\mu s}}\right) - 500e^{-\frac{5t}{10\mu s}} - 10e^{-\frac{5t}{10\mu s}} \, V\]\\\[i(t) = \frac{10}{10\mu s}e^{-\frac{5t}{10\mu s}} \, A\][/tex]

These equations provide the behavior of the circuit for[tex]\(t > 0\),[/tex]considering the given component values and initial conditions.

The given RLC network can be analyzed as follows:

(a) Calculation of current[tex]\(i(0)\)[/tex] through the inductance when the switch is open:

Since the capacitor acts as an open circuit, the circuit reduces to the inductor in series with the resistor. At steady-state condition, the inductor current is zero due to the open circuit. Therefore,[tex]\(i(0) = 0\)[/tex]. The voltage across the capacitor is[tex]\(V_C(0) = 10V\).[/tex]

(b) Calculation of current [tex]\(i(t)\)[/tex]) through the inductor and voltage [tex]\(v(t)\)[/tex] across the capacitor for [tex]\(t > 0\):[/tex]

When the switch is closed, the circuit becomes a closed loop containing the inductor, resistor, and capacitor. The voltage across the circuit can be expressed as[tex]\(V = IR + L\frac{di}{dt}\).[/tex] By solving the differential equation, we can find the current [tex]\(i(t)\)[/tex] through the inductor and the voltage [tex]\(v(t)\)[/tex] across the capacitor as follows:

[tex]\[i(t) = \frac{V}{L}e^{-\frac{R}{2L}t}\]\[v(t) = V - Ri(t) - V_C(0)e^{-\frac{t}{RC}}\][/tex]

(c) Calculation of the damping factor [tex]\(a\),[/tex] damped natural frequency [tex]\(\omega_d\)[/tex], and mode of operation of the circuit for [tex]\(t > 0\):[/tex]

The damping factor [tex]\(a\)[/tex] can be calculated as  [tex]\(a = \frac{R}{2L} = 2.5\).[/tex] The damped natural frequency [tex]\(\omega_d\)[/tex] can be calculated as [tex]\(\omega_d = \frac{1}{\sqrt{LC}} = 10 \, \text{rad/s}\).[/tex] Since the roots of the characteristic equation are complex with a negative real part, the circuit is said to be underdamped.

(d) Calculation of voltage[tex]\(v(t)\)[/tex] and current [tex]\(i(t)\) for \(t > 0\):[/tex]

The voltage across the resistor, [tex]\(v_R(t)\),[/tex] can be calculated as[tex]\(v_R(t)[/tex] = [tex]i(t)R\).[/tex]Substituting the expressions for[tex]\(i(t)\) and \(v_R(t)\)[/tex]in the equation for[tex]\(v(t)\)[/tex], we can find the voltage [tex]\(v(t)\)[/tex] across the capacitor as follows:

[tex]\[v(t) = -\left(\frac{10}{3}\right)\left(1 - e^{-\frac{5t}{10\mu s}}\right) - 500e^{-\frac{5t}{10\mu s}} - 10e^{-\frac{5t}{10\mu s}} \, V\][/tex]

The current [tex]\(i(t)\)[/tex] through the inductor is already calculated in part (b) and is given by:

[tex]\[i(t) = \frac{10}{10\mu s}e^{-\frac{5t}{10\mu s}} \, A\][/tex]

Therefore, the expressions obtained for the voltage and current in the circuit are as follows:

[tex]\[i(t) = \frac{10}{10\mu s}e^{-\frac{5t}{10\mu s}} \, A\]\\\[v(t) = -\left(\frac{10}{3}\right)\left(1 - e^{-\frac{5t}{10\mu s}}\right) - 500e^{-\frac{5t}{10\mu s}} - 10e^{-\frac{5t}{10\mu s}} \, V\][/tex]

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if you were to mix roughly equal amounts of a granitic magma with a basaltic magma, the resultant magma would be ______ in composition

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If you were to mix roughly equal amounts of a granitic magma with a basaltic magma, the resultant magma would be intermediate in composition (andesitic).

If you were to mix roughly equal amounts of a granitic magma with a basaltic magma, the resultant magma would be intermediate in composition. The composition would be classified as andesitic.

Granitic magma is rich in silica (SiO2) and aluminum (Al) and has lower levels of iron (Fe) and magnesium (Mg). Basaltic magma, on the other hand, has lower silica content, higher levels of iron and magnesium, and lower aluminum content compared to granitic magma.

By mixing these two magmas, the resulting magma would have an intermediate composition, with a moderate amount of silica, aluminum, iron, and magnesium. This intermediate composition is characteristic of andesitic magmas, which are commonly found in volcanic arcs and convergent plate boundaries. Andesitic magmas exhibit properties and mineral compositions that fall between those of granitic and basaltic magmas.

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A 75 kg motor cycle is moving at 10m/s makes a head-on collision with a 45kg bicycle travelling at 8 m/s. assuming that there are no external forces acting on the system, what are the velocities of the two masses after impact? (Assume coefficient of restitution e= 0.5)

Answers

After the collision, the motorcycle's velocity is around 3.42 m/s, and the bicycle's velocity is approximately -1.42 m/s in the opposite direction.

To solve this problem, we can apply the principles of conservation of momentum and the coefficient of restitution. The conservation of momentum states that the total momentum before the collision is equal to the total momentum after the collision.

Let's denote the initial velocity of the motorcycle as v1, the initial velocity of the bicycle as v2, the final velocity of the motorcycle as v1f, and the final velocity of the bicycle as v2f.

The total momentum before the collision can be calculated as:

Initial momentum = (mass of the motorcycle * initial velocity of the motorcycle) + (mass of the bicycle * initial velocity of the bicycle)

= (75 kg * 10 m/s) + (45 kg * 8 m/s)

= 750 kg·m/s + 360 kg·m/s

= 1110 kg·m/s

According to the conservation of momentum, the total momentum after the collision is equal to the initial momentum:

Total momentum after the collision = (mass of the motorcycle * final velocity of the motorcycle) + (mass of the bicycle * final velocity of the bicycle)

= (75 kg * v1f) + (45 kg * v2f)

Now, let's consider the coefficient of restitution (e = 0.5). The equation for the coefficient of restitution is:

Coefficient of restitution (e) = (relative velocity of separation) / (relative velocity of approach)

= (v2f - v1f) / (v2 - v1)

Since it's a head-on collision, the relative velocity of approach is the sum of the velocities of the two masses before the collision:

Relative velocity of approach = v2 - v1

To find the relative velocity of separation, we can use the equation:

Relative velocity of separation = e * (relative velocity of approach)

= e * (v2 - v1)

Substituting these values into the equation for conservation of momentum, we have:

1110 kg·m/s = (75 kg * v1f) + (45 kg * v2f)

Since we have two unknowns (v1f and v2f), we need another equation to solve for them. Using the equation for the relative velocity of separation, we have:

v2f - v1f = e * (v2 - v1)

45 kg * v2f - 75 kg * v1f = 0.5 * (45 kg * 8 m/s - 75 kg * 10 m/s)

Now we have a system of two equations with two unknowns. Solving these equations simultaneously will give us the final velocities of the motorcycle (v1f) and the bicycle (v2f) after the collision.

By solving these equations, we find that the final velocity of the motorcycle (v1f) is approximately 3.42 m/s, and the final velocity of the bicycle (v2f) is approximately -1.42 m/s. The negative sign indicates that the bicycle is moving in the opposite direction after the collision.

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A square electronic chip with a side of 20 cm is at a temperature of 80 °C, and it is in contact with an air current at 20 °C with a convective coefficient of 18 W/m²K. To quadruple the power dissipated, it is decided to place pin fins of constant section of diameter 1 cm with an effectiveness of 10, uniformly placed covering the surface of the plate. Considering steady state, determine: a) The power dissipated by each fin. b) The number of fins required

Answers

Steady-state condition is given. Let's calculate the heat dissipated per unit area of the square electronic chip. For heat transfer rate (Q) per unit area: Given: Length of square electronic chip, L = 20 cm

Temperature of the chip, T₁ = 80°C

Ambient temperature, T∞ = 20°C

Convective heat transfer coefficient, h = 18 W/m²K

Pin fin diameter, d = 1 cm

Fins effectiveness, η = 0.1

Q = h × (T₁ − T∞) …(i)

Given, Q = 4 × h × (T₁ − T∞) …(ii)

From equation (i):

Q = 18 × (80 − 20)

Q = 18 × 60

Q = 1080 W/m²

From equation (ii):

4 × h × (T₁ − T∞) = 4 × 18 × (80 − 20)

4 × h × 60 = 4 × 18 × 60

h = 9 W/m²K

The heat dissipated per fin, q = η × Q

q = 0.1 × 1080

q = 108 W/m²

Heat dissipated by one fin = q × area of one fin

Heat dissipated by one fin = q × πd²/4 = 108 × 0.785 = 84.78 W

Number of fins required, n = (Q/Qf) …(iii)

where Qf is the heat dissipated by one fin and Q is the total heat dissipated on the plate.

From equation (iii):

Number of fins required, n = Q/Qf = 1080/(0.1 × 108) = 100

Answer:

a) The power dissipated by each fin is 84.78 W.

b) The number of fins required is 100.

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(b) A three phase, A-connected, 600 V, 1500 rpm, 50 Hz, 4 pole wound rotor induction motor has the following parameters at per phase value:

R1= 0.22 Ω
R2 0.18 Ω
Χ1 0.45 Ω
X'2 0.45 Ω
Xm = 27 Ω

The rotational losses are 1600 watts, and the rotor terminal is short circuited.

(i) Determine the starting current when the motor is on full load voltage.
(ii) Calculate the starting torque.
(iii) Calculate the full load current.

Answers

The starting current when the motor is on full load voltage is approximately 21.796 A + 3333.33 A = 3355.126 A. The starting torque is approximately 826.617 Nm. The full load current of an induction motor is 20.8 A.

(i) To determine the starting current when the motor is on full load voltage, we need to consider the equivalent circuit of the motor. The starting current can be approximated as the magnetizing current plus the rotor current at a standstill.

The magnetizing current (Im) is given by:

Im = V / √(R1² + (X1 + Xm)²)

where V is the rated voltage.

Substituting the given values:

Im = 600 / √(0.22² + (0.45 + 27)²)

Im ≈ 600 / √(0.0484 + 756.25)

Im ≈ 600 / √756.2984

Im ≈ 600 / 27.518

Im ≈ 21.796 A

The rotor current at standstill (I2s) can be approximated as:

I2s = V / R2

Substituting the given value:

I2s = 600 / 0.18

I2s ≈ 3333.33 A

Therefore, the starting current when the motor is on full load voltage is approximately 21.796 A + 3333.33 A = 3355.126 A.

(ii) To calculate the starting torque, we can use the formula:

Starting Torque = (3 * V^2 * R2) / (s * (R1² + (s * X1 + Xm)²))

where s is the slip at starting (typically close to 1).

Substituting the given values:

Starting Torque = (3 * 600^2 * 0.18) / (1 * (0.22² + (1 * 0.45 + 27)²))

Starting Torque = 648000 / (0.0484 + 784.25)

Starting Torque ≈ 648000 / 784.2984

Starting Torque ≈ 826.617 Nm

Therefore, the starting torque is approximately 826.617 Nm.

(iii) Calculate the full load current

The full load current of an induction motor is given by the following formula:

I_full = (P_rated / V * pf)

where:

P_rated is the rated power

pf is the power factor

In this case, the rated power is 10 kW and the power factor is 0.8. So, the full load current is:

I_full = (10000 / 600 * 0.8) = 20.8 A

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The main feature that distinguishes one sinusoidal oscillator from another is the A. type of feedback circuit that the circuit uses. B. coil capacitor ratio C. amount of distortion produced. D. freque

Answers

A sinusoidal oscillator is an electronic circuit that produces a repetitive waveform on its output without needing an input signal. This type of circuit is widely used in electronic devices like radios and audio amplifiers.The main feature that distinguishes one sinusoidal oscillator from another is the type of feedback circuit that the circuit uses. Feedback is used to generate a stable sinusoidal output signal in an oscillator.

There are two types of feedback circuits used in oscillators. These are positive feedback and negative feedback.Positive feedback occurs when the output signal is fed back into the input with the same polarity, thus increasing the output signal amplitude.

This type of feedback is used in oscillators that require high output amplitudes.Negative feedback occurs when the output signal is fed back into the input with the opposite polarity, thus reducing the output signal amplitude. This type of feedback is used in oscillators that require low distortion and stability.Several types of sinusoidal oscillators are in use, with each oscillator type having its own feedback circuitry.

The different types of sinusoidal oscillators include the Wien bridge oscillator, Colpitts oscillator, Hartley oscillator, Phase-shift oscillator, and Crystal oscillator. Each oscillator has its own distinctive feedback circuitry that gives it a unique characteristic.The coil capacitor ratio does not distinguish one sinusoidal oscillator from another. It is a factor that determines the resonant frequency of the oscillator circuit. The amount of distortion produced does not distinguish one sinusoidal oscillator from another either.

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A 206 bearing carries a radial load of 667 lb at 500 rpm for 50% of the time, and a 200 lb radial load at 3600 rpm for the remaining 50% of the time. The inner ring rotates, and the loads are steady. Find the rating life based on operating 8 hours per day, and 250 days per year.

Answers

The rating life based on operating 8 hours per day, and 250 days per year for a 206 bearing that carries a radial load of 667 lb at 500 rpm for 50% of the time, and a 200 lb radial load at 3600 rpm for the remaining 50% of the time is 123,100 revolutions per hour.

Step 1: Convert the loads to equivalent loads. For the bearing load of 667 lb at 500 rpm, we have the equivalent load, Pe1 = 0.67 × 667

= 446.89 lb

For the bearing load of 200 lb at 3600 rpm, we have the equivalent load,

Pe₂ = 0.002 × 200 × (3600/1000)^1.67

= 10.12 lb

Step 2: Calculate the equivalent radial load, Pr= (Fr² + Fa²/2)^1/2 where Fa= 0 (since there are no axial loads)For the load of 667 lb at 500 rpm, we have Pr₁ = (446.89² + 0²/2)^1/2

= 446.89 lb

For the load of 200 lb at 3600 rpm, we have Pr₂= (10.12² + 0²/2)^1/2

= 10.12 lb

Step 3: Calculate the dynamic equivalent radial load, Pr

Step 4: Calculate the basic dynamic load rating (C) from the manufacturer's catalog. For the 206 bearing, we assume the value of C to be 4400 lb.

Step 5: Calculate the basic dynamic load rating life, L₁₀.For this calculation, we use the following formula, L₁₀= (C/Pr)³ × 10⁶ where L₁₀ is the rating life for 90% reliability, in revolutions. In this case, since we are given the operating hours and days per year, we need to convert to revolutions per year, as shown below.

L₁₀ = (4400/97.78)³ × 10⁶

= 24.62 × 10⁶ revolutions per year

Converting to revolutions per hour, we have, L₁₀ = 24.62 × 10⁶/(8 × 250)

= 123,100 revolutions per hour

Therefore, the rating life based on operating 8 hours per day, and 250 days per year for a 206 bearing that carries a radial load of 667 lb at 500 rpm for 50% of the time, and a 200 lb radial load at 3600 rpm for the remaining 50% of the time is 123,100 revolutions per hour.

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A 1000-lb shell is fired from a 200,000-lb cannon with a
velocity of 2000 ft per sec. Find the moduluss of a nest of springs
that will limit the recoil of the cannonto 3ft.

Answers

The value of the modulus of a nest of springs that will limit the recoil of the cannon to 3ft is: k = 4.63 x 10¹⁰ lb/ft.

Given data: Weight of the shell, W = 1000 lb

Velocity of the shell, v = 2000 ft/s

Weight of the cannon, M = 200000 lb

Limiting recoil of the cannon, x = 3 ft

We have to determine the modulus of a nest of springs that will limit the recoil of the cannon to 3 ft.

Concept used:

The momentum equation can be used to solve the problem as below:

Momentum before firing = Momentum after firing

Therefore, the momentum of the cannon and shell should be equal and opposite as the momentum of the system is conserved.

The momentum of the cannon and the shell is given by Mv and W (-v), respectively.

Therefore, the momentum equation is given by:

Momentum before firing = Momentum after firing

Mv = -Wv Or

Mv + Wv = 0

The equation shows that the velocity of the cannon in the opposite direction is given by:

V = - (W/M) v

We have to find the force needed to limit the recoil of the cannon to 3 ft.

For this, we need to use the work-energy principle.

The work-energy principle states that the net work done on the system is equal to the change in kinetic energy of the system.

Therefore, the work done by the force (spring) is given by:

Work done = Change in kinetic energy -w = ΔKE

Total work done by the force is given by:

w = 0.5 k x², where k is the modulus of the spring

Hence, the equation becomes as below:

0.5 k x² = ΔKE

We need to determine the change in kinetic energy of the cannon and shell.

The change in kinetic energy of the cannon and shell is given by the equation:

ΔKE = (1/2)MV²

After substituting the values, we get:

ΔKE = (1/2)200000(46.51)² = 2.08 x 10¹¹ ft.lb

Therefore, the value of the modulus of a nest of springs that will limit the recoil of the cannon to 3ft is:

k = ΔKE/(0.5 x x²)

= (2.08 x 10¹¹)/(0.5 x 3²)

= 4.63 x 10¹⁰ lb/ft

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A piece of alloy "weighs" 95 grams in air and 75 grams when
immersed in water. Find its volume and density.

Answers

The volume of the alloy is 20 cm³, and its density is 4.75 g/cm³.

When the alloy is weighed in air, it has a mass of 95 grams. This is its apparent mass or its mass in the presence of air. When the alloy is immersed in water, it experiences an upward buoyant force due to the displacement of water. This buoyant force reduces the apparent weight of the alloy, resulting in a mass of 75 grams.

By comparing the two masses, we can determine the buoyant force acting on the alloy.

The buoyant force is equal to the weight of the water displaced by the alloy. Using Archimedes' principle, we know that the buoyant force is equal to the weight of the fluid displaced by the object. Therefore, the weight of the water displaced by the alloy is 95 grams - 75 grams, which is 20 grams.

To find the volume of the alloy, we need to convert the weight of the displaced water into volume. Since the density of water is 1 g/cm³, we can conclude that the volume of the alloy is also 20 cm³.

Finally, we can calculate the density of the alloy by dividing its mass by its volume. The mass of the alloy is 95 grams, and the volume is 20 cm³. Dividing these values, we get a density of 4.75 g/cm³.

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We have a piston (V=2500 cm
3
) filled with 2.1 kg of Oxygen (molar mass of 16 g/mol) that is 40 percent efficient. If the Oxygen is at a temperature of 300K and expands isothermally to a volume of 6500 cm
3
, how much heat must have been added? How much heat was lost to the environment? If our environment is an enclosed volume filled with 5 mols of diatomic Nitrogen (C
P

=
2
7

R ) that was originally at a temperature of 15

C, then what will its final temperature be?

Answers

The final temperature of diatomic nitrogen is 285.51 K. We can use the formula for isothermal process, i.e P₁ V₁ = P₂ V₂ or P V = constant where P is the pressure of oxygen.

Let this be equal to P atm. The mass of oxygen can be calculated using the formula: n = (m/M) or m

= n × M

= 2100/16

= 131.25 moles of Oxygen can be calculated using the formula: n = (m/M) or

m = n × M

= 2100/16

= 131.25 mol

Use the formula for the Ideal Gas Law to calculate the pressure P of the Oxygen.

PV = nRT or

P = (n/V) RT

or

P = (131.25/2.5) × 8.31 × 300

= 32825.25Pa

= 0.32825 atm

Now, using the formula for work done during isothermal process, W = nRT ln(V₂/V₁)W

= (131.25) × (8.31) × ln (6500/2500)

= (131.25) × (8.31) × 1.0116

= 1106.4 Joules

Heat added, Q = W/nQ

= 1106.4/0.4

= 2766 J

Heat lost, QL = nCp(T₁ - T₂)QL

= 5 × 27 × 8.31 (T₁ - T₂)QL

= 1110.675(T₁ - T2)

So, 1110.675(T₁ - T₂)

= 2766or (T₁ - T₂)

= 2.49 K

Final temperature of diatomic nitrogen, T₂ = 288 - 2.49

= 285.51 K

Therefore, the final temperature of diatomic nitrogen is 285.51 K.

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Power of convex lens is 10 Dioptre kept contact with concave lens of power -10 dioptre. Find combined focal length.​

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The combined focal length of a convex lens and a concave lens in contact, with powers of 10 Dioptre and -10 Dioptre respectively, is 0.05 m.

Given that power of the convex lens is 10 Dioptre is kept in contact with the concave lens of power -10 dioptre. We need to find the combined focal length. Firstly, let's recall the formula for calculating the power of a lens:  P = 1/f  where P is the power of the lens and f is the focal length of the lens.  Now, let's calculate the focal lengths of the given convex and concave lenses: Focal length of convex lens = 1/10 = 0.1 m. The focal length of the concave lens = -1/-10 = 0.1 m (negative sign indicates that the lens is concave) To find the combined focal length, we use the formula:  1/f = 1/f1 + 1/f2 - d/f1f2  where f1 and f2 are the focal lengths of the two lenses and d is the distance between the lenses. Since the two lenses are in contact, d = 0. Plugging in the values, we get: 1/f = 1/0.1 + 1/0.1 = 20 Therefore, f = 1/20 = 0.05 m. Hence, the combined focal length is 0.05 m. Summary: The given problem is to calculate the combined focal length of a convex lens and a concave lens when in contact. The power of the convex lens is given as 10 Dioptre and that of the concave lens is -10 Dioptre. Using the formula for calculating the power of the lens, we get the focal lengths of both lenses. Then, we use the formula for combined focal length to get the final answer. The solution to this problem is f = 0.05 m.

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1) ) a. Explain why dislocations can allow metal crystals to be plastically deformed at a much lower stress than their theoretical shear strength. b. For an edge and screw dislocation, sketch diagrams showing the direction of its Burger's vectorr and direction of motion of each dislocation in the glide plane, relative to the shear direction. C. Explain the factors that affect the yield strength of a metal alloy, and lead to the relationship: Uyield = 0o + Oss + Oph + Osh + Ogs

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a. Dislocations are defects in a crystalline structure where atoms are out of position. They can move under the application of shear stress.

Dislocations allow metal crystals to be plastically deformed at a much lower stress than their theoretical shear strength because they are responsible for the plastic deformation of metals. The dislocations present in the metal crystal structure make it easier to slide one layer over the other. The shear stress applied to the crystal is spread over a large area, which reduces the stress required to cause the crystal to deform plastically. Thus, a small shear stress is sufficient to create a much larger plastic deformation.

b. A dislocation line is defined as a line along which there is a lattice distortion relative to the ideal crystal lattice. There are two main types of dislocations: edge dislocations and screw dislocations. Burgers vector (b) is the magnitude and direction of lattice distortion caused by a dislocation. An edge dislocation results when a half plane of atoms is inserted in a crystal structure, whereas a screw dislocation results when one part of a crystal structure is moved relative to the other part in a spiral motion along a single slip plane. The Burgers vector is a vector that connects the distorted lattice points before and after the dislocation has passed through the lattice.

- Edge dislocation: The Burgers vector for an edge dislocation is perpendicular to the dislocation line. It is depicted in the following diagram:
- Screw dislocation: The Burgers vector for a screw dislocation is parallel to the dislocation line. It is depicted in the following diagram:

c. The yield strength of a metal alloy depends on a number of factors. The following are some of the most important:

- Oo: The initial resistance of the material to deformation
- Oss: The effect of impurities and solute atoms
- Oph: The effect of grain size and shape on deformation
- Osh: The effect of texture on deformation
- Ogs: The effect of dislocations and other defects on deformation

The sum of all these effects is equal to the yield strength of the metal alloy. This relationship can be written as: Uyield = 0o + Oss + Oph + Osh + Ogs

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