A point charge is 10 µc. Find the field and potential at a distance of 30 cm?

Answers

Answer 1

The electric field at a distance of 30 cm from a point charge of 10 µC is 3.33 × 10^4 N/C directed radially outward from the charge. The electric potential at that distance is 9 × 10^4 V.

The electric field at a distance of 30 cm from a point charge can be calculated using Coulomb's law: Electric field (E) = k * (Q / r^2),

E = (9 × 10^9 N m^2/C^2) * (10 × 10^-6 C) / (0.3 m)^2 = 3.33 × 10^4 N/C.

Therefore, the electric field at a distance of 30 cm from the point charge is 3.33 × 10^4 N/C

The potential at a distance from a point charge can be calculated using the equation: Potential (V) = k * (Q / r),

V = (9 × 10^9 N m^2/C^2) * (10 × 10^-6 C) / (0.3 m) = 9x 10^4 V.

Therefore, the potential at a distance of 30 cm from the point charge is 9x 10^4 V.

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Related Questions

(a) Two point charges totaling 8.00μC exert a repulsive force of 0.300 N on one another when separated by 0.567 m. What is the charge ( in μC ) on each? smallest charge xμC μC (b) What is the charge (in μC ) on each if the force is attractive? smallest charge « μC largest charge μC

Answers

a)The charge on each particle in both cases is 4.00 μC and b) -1.86 x 10⁻⁶ C, respectively.

(a) Two point charges totaling 8.00μC exert a repulsive force of 0.300 N on one another when separated by 0.567 m. What is the charge (in μC) on each?The force between two point charges q1 and q2 that are separated by distance r is given by:F = (1/4πε) x (q1q2/r²)Here, ε = 8.85 x 10⁻¹² C²/Nm², q1 + q2 = 8.00 μC, F = 0.300 N, and r = 0.567 m.Therefore,F = (1/4πε) x [(q1 + q2)²/r²]0.300 = (1/4πε) x [(8.00 x 10⁻⁶)²/(0.567)²]q1 + q2 = 8.00 μCq1 = (q1 + q2)/2, q2 = (q1 + q2)/2Therefore,q1 = q2 = 4.00 μC.

(b) What is the charge (in μC) on each if the force is attractive?When the force is attractive, the charges are opposite in sign. Let q1 be positive and q2 be negative. The force of attraction is given by:F = (1/4πε) x (q1q2/r²)Therefore,F = (1/4πε) x [(q1 - q2)²/r²]0.300 = (1/4πε) x [(q1 - (-q1))²/(0.567)²]q1 = (0.300 x 4πε x (0.567)²)¹/² = 1.86 x 10⁻⁶ Cq2 = -q1 = -1.86 x 10⁻⁶ C. Thus, the charge on each particle in both cases is 4.00 μC and -1.86 x 10⁻⁶ C, respectively.

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The New Horizons space probe flew by Pluto in 2015. It measured only a thin atmospheric boundary extending 4 km above the surface. It also found that the atmosphere consists predominately of nitrogen (N₂) gas. The work to elevate a single N₂ molecule to this distance is 5.7536 x 10⁻²³ J. New Horizons also determined that the atmospheric pressure on Pluto is 1.3 Pa at a distance of 3 km from the surface. What is the atmospheric density at this elevation? mN2 = 2.32 x 10⁻²⁶kg a. 6.99 x 10⁻⁴ kg/m³ b. 442 x 10⁻² kg/m³ c. 442 x 10⁻⁵ kg/m³ d. 6.99 x 10⁻¹ kg/m³

Answers

Answer: The correct option is a. 6.99 x 10⁻⁴ kg/m³.

Work to elevate a single N₂ molecule to this distance = 5.7536 x 10⁻²³ Jm

N2 = 2.32 x 10⁻²⁶kg

Pluto Atmospheric Pressure = 1.3 Pa

Distance from the surface = 3 km

We are given the work done to lift a single N2 molecule, which is 5.7536 x 10⁻²³ J.

Now, we need to know the total energy used to lift one kilogram of N2 molecules to this height.

Since the mass of one N2 molecule is 2.32 x 10⁻²⁶kg, the number of molecules in one kilogram would be:

1 kg = 1,000 g = 1000/14moles = 71.43 moles.

In one mole, there are 6.022 x 10²³ molecules.

Therefore, in 71.43 moles, the number of N₂ molecules would be:71.43 moles x 6.022 x 10²³ molecules per mole

= 4.29 x 10²⁶ molecules of N₂.

Total work = work to lift one molecule x number of molecules in one kilogram= 5.7536 x 10⁻²³ J/molecule x 4.29 x 10²⁶ molecules/kg= 2.466 x 10³ J/kg.

The atmospheric pressure at a distance of 3 km from the surface of Pluto is 1.3 Pa.

Using the ideal gas law, PV = nRT,

where P is pressure, V is volume, n is the number of moles, R is the gas constant and T is temperature.

The mass of one N₂ molecule, m. N₂ is given as 2.32 x 10⁻²⁶ kg.

Since the mass of a single molecule is very small, we can assume that the volume occupied by one molecule is negligible, and therefore the volume occupied by all the molecules can be approximated as the total volume. The number of moles of N₂ gas in 1 kg would be:1 kg = 1000 g / (28 g/mol) = 35.71 moles.

Therefore, the number of molecules would be: 35.71 moles x 6.022 x 10²³ molecules/mole

= 2.15 x 10²⁶ molecules of N₂. The volume occupied by all the N2 molecules in 1 kg would be:,

V = nRT/P

= (35.71 x 8.314 x 55)/(1.3)

= 1.53 x 10³ m³.

The density of N₂ gas in 1 kg would be:

p = m/V = 1/1.53 x 10³

= 6.54 x 10⁻⁴ kg/m³.

Therefore, the atmospheric density at this elevation is 6.54 x 10⁻⁴ kg/m³.

Answer: The correct option is a. 6.99 x 10⁻⁴ kg/m³.

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A 2400 cm³ container holds 0.15 mol of helium gas at 320°C. Part A How much work must be done to compress the gas to 1200 cm³ at constant pressure? Express your answer to two significant figures and include the appropriate units. W = __________ Value ___________ Units Part B How much work must be done to compress the gas to 1200³ cm at constant temperature? Express your answer to two significant figures and include the appropriate units. W = __________ Value ___________ Units

Answers

The work done to compress the gas to 1200 cm³ at constant pressure is 28.3 J, and the work done at constant temperature is -31.9 J.

Container volume, V1 = 2400 cm³

Amount of gas, n = 0.15 mol

Temperature, T = 320°C

Final volume, V2 = 1200 cm³

Part A: We can calculate the work done using the formula,

W = -P∆V

where,

∆V = V2 - V1

P is constant and can be calculated using the ideal gas law equation PV = nRT.

So, P = (nRT) / V1

Substitute the given values to calculate P.

P = (0.15 mol * 8.31 J/mol*K * 593 K) / 2400 cm³ = 0.0236 atm

Now, calculate the work done.

W = - (0.0236 atm) * (1200 cm³ - 2400 cm³) = 28.3 J

Part B: When the temperature is constant, use the following formula to calculate work done.

W = nRT ln(V2/V1)

where,

R is the universal gas constant

R = 8.31 J/mol*K

Substitute the given values to calculate work done.

W = (0.15 mol * 8.31 J/mol*K * 593 K) ln(1200 cm³ / 2400 cm³)

W = -31.9 J (to two significant figures)

Therefore, the work done to compress the gas to 1200 cm³ at constant pressure is 28.3 J, and the work done at constant temperature is -31.9 J.

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A 10.4-V battery, a 4.98-12 resistor, and a 9.8-H inductor are connected in series. After the current in the circuit has reached its maximum value, calculate the following. (a) the power being supplied by the battery W (b) the power being delivered to the resistor w (c) the power being delivered to the inductor W (d) the energy stored in the magnetic field of the inductor

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(a)The power supplied by battery W is 21.6956 W. (b) The power delivered to the resistor w is 21.6956 W. (c) The power being delivered to the inductor W is  21.6956 W. (d) The energy stored in the magnetic field of the inductor is 21.6524 J

(a) To calculate the power supplied by the battery, we can use the formula:

P = VI, where P is the power, V is the voltage, and I is the current.

Since the battery voltage is given as 10.4 V, there is a need to determine the current flowing through the circuit. In a series circuit, the current is the same across all components. Therefore, calculate the current by using Ohm's Law:

V = IR, where R is the resistance.

Plugging in the given values,

I = V/R = 10.4 V / 4.98 Ω = 2.089 A.

Calculate the power supplied by the battery:

P = VI = 10.4 V * 2.089 A

= 21.6956 W.

(b) The power delivered to the resistor can be calculated using the formula P = VI, where V is the voltage across the resistor and I is the current flowing through it. Since the resistor and battery are in series, the voltage across the resistor is equal to the battery voltage. Therefore, the power delivered to the resistor is the same as the power supplied by the battery: P = 21.6956 W.

(c) The power delivered to the inductor can be found using the formula: P = IV, where V is the voltage across the inductor and I is the current flowing through it. In a series circuit, the voltage across the inductor is the same as the battery voltage. Therefore, the power delivered to the inductor is also 21.6956 W.

(d) The energy stored in the magnetic field of the inductor can be calculated using the formula:

[tex]E = 1/2 LI^2[/tex], where L is the inductance and I is the current flowing through the inductor.

Plugging in the given values,

[tex]E = 1/2 * 9.8 H * (2.089 A)^2[/tex]

= 21.6524 J.

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A heat engine operating between energy reservoirs at 20∘C∘C and 640 ∘C∘C has 30 %% of the maximum possible efficiency.
How much energy must this engine extract from the hot reservoir to do 1100 JJ of work?
Express your answer to two significant figures and include the appropriate units.

Answers

Answer: The engine must extract 67,000 J of energy from the hot reservoir to do 1100 J of work.

The expression for the efficiency of a heat engine operating between two energy reservoirs at temperatures T1 and T2 is;η = 1 - (T1/T2)

T1 = 20 ° C and T2 = 640 ° C.

Efficiency of 30% : η = 0.30 = 1 - (20/640)

Therefore, we can solve for the temperature T2 as follows: T2 = 20 / (1 - 0.30)(640) = 1228.57 K.

The efficiency :η = 1 - (20/1228.57) = 0.9836

Thus, we can use this efficiency to calculate the energy: QH that must be extracted from the hot reservoir to do 1100 J of work as follows:

W = QH(1 - η)1100 J

= QH(1 - 0.9836)

QH = 1100 / (1 - 0.9836)

= 67,000 J.

Therefore, the engine must extract 67,000 J of energy from the hot reservoir to do 1100 J of work

Answer: 67,000 J

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An experimental bicycle wheel is place on a test stand so that it is free to turn on its axle. If a constant net torque of 7.5 N-m is applied to the tire for 1.5 seconds, the angular speed of the tire increases from 0 to 2 rev/min. The external torque is then removed, and the wheel is brought to rest by friction in its bearings in 175 s. a) Compute the moment of inertia of the wheel about the rotation rate. b) Compute the friction torque. c) Compute the total number of revolutions made by the wheel in the 175-second time interval.

Answers

Answer:

The total number of revolutions made by the wheel in the 175-second time interval is approximately 8.75 revolutions.

a) To compute the moment of inertia of the wheel about the rotation axis, we can use the equation:

Δθ = (1/2)αt^2

Where Δθ is the change in angle (in radians), α is the angular acceleration (in radians per second squared), and t is the time (in seconds).

Initial angular velocity, ω_i = 0 rev/min

Final angular velocity, ω_f = 2 rev/min

Time, t = 1.5 s

First, let's convert the angular velocities to radians per second:

ω_i = (0 rev/min) * (2π rad/rev) * (1 min/60 s) = 0 rad/s

ω_f = (2 rev/min) * (2π rad/rev) * (1 min/60 s) = (2π/30) rad/s

The angular acceleration can be calculated using the equation:

α = (ω_f - ω_i) / t

α = [(2π/30) rad/s - 0 rad/s] / 1.5 s = (2π/30) rad/s^2

Now, let's find the change in angle:

Δθ = (1/2) * (2π/30) rad/s^2 * (1.5 s)^2

Δθ = (π/30) rad

The moment of inertia (I) of the wheel can be determined using the equation:

Δθ = (1/2)αt^2 = (1/2) * (I * α) * t^2

Rearranging the equation:

I = (2Δθ) / (α * t^2)

Substituting the values:

I = (2 * π/30) rad / ((2π/30) rad/s^2 * (1.5 s)^2)

I = 2.222 kg·m^2

b) To compute the friction torque, we can use the equation:

τ_f = I * α

Substituting the values:

τ_f = (2.222 kg·m^2) * (2π/30) rad/s^2

τ_f ≈ 0.370 N·m

c) To compute the total number of revolutions made by the wheel in the 175-second time interval, we can use the equation:

Δθ = ω_avg * t

Where Δθ is the change in angle (in radians), ω_avg is the average angular velocity (in radians per second), and t is the time (in seconds).

Time, t = 175 s

First, let's calculate the average angular velocity:

ω_avg = (ω_i + ω_f) / 2 = (0 rad/s + (2π/30) rad/s) / 2 = (π/30) rad/s

Now, we can find the change in angle:

Δθ = (π/30) rad/s * 175 s

Δθ = 175π/30 rad ≈ 18.333π rad

To calculate the number of revolutions, we divide the change in angle by 2π:

Number of revolutions = (175π/30 rad) / (2π rad/rev) ≈ 8.75 rev

Therefore, the total number of revolutions made by the wheel in the 175-second time interval is approximately 8.75 revolutions.

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Four identical railway trucks, each of mass m, were coupled together and are at rest on a smooth horizontal track. A fifth truck of mass m and moving at 5.00 m/s collides and couples with the stationary trucks. What is the speed of the trucks after the impact?

Answers

The velocity of the trucks after the collision is 5/9 m/s.

The given problem involves an elastic collision between a moving body and a stationary one. After the impact, the two bodies stick together. We have to find out the speed of the trucks after the impact.Four identical railway trucks, each of mass m, were coupled together and are at rest on a smooth horizontal track. A fifth truck of mass m and moving at 5.00 m/s collides and couples with the stationary trucks.

What is the speed of the trucks after the impact?The initial momentum of the moving truck is m * 5.00 = 5m.The initial momentum of the stationary trucks is 0. The total momentum before the impact is 5m.After the collision, the trucks move together as one system. Let us assume that the final velocity of the combined system is v. Since the trucks are identical, the center of mass of the system is at the center of the 5-truck system. Let us apply the law of conservation of momentum for the combined system.5m = (5m + 4m)v9m v = 5mv = 5/9 m/sTherefore, the velocity of the trucks after the collision is 5/9 m/s.

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A wire in the shape of an " \( \mathrm{M} \) " lies in the plane of the paper as shown in the figure. It carries a current of \( 2.00 \mathrm{~A} \), flowing from points \( A \) to \( B \), to \( C \)

Answers

The magnetic field at point P, which is inside the wire's loop, will be directed into the page or downward.

The wire in the shape of an "M" lies in the plane of the paper as shown in the figure. It carries a current of 2.00 A, flowing from points A to B, to C.What will be the direction of the magnetic field at point P due to the current-carrying conductor in the figure?We can apply the right-hand thumb rule to find the direction of the magnetic field at point P due to the current-carrying conductor in the figure.

The right-hand thumb rule states that if the thumb of the right hand is pointed in the direction of the current, the fingers will wrap around the conductor in the direction of the magnetic field.So, the magnetic field lines will flow around the wire in a counter clockwise direction (from points B to C to A). As a result, the magnetic field at point P, which is inside the wire's loop, will be directed into the page or downward. Therefore, the answer is "into the page or downward."

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In an isentropic compression, P₁= 100 psia. P₂= 200 psla, V₁ = 10 m³, and k=1.4. Find V₂ OA 4.500 in ³ OB.3.509 in ³ OC.5.000 in ³ OD.6.095 in ³

Answers

The correct option is OA 4.500 in ³.

In an isentropic compression, P₁= 100 psia, P₂= 200 psia, V₁ = 10 m³, and k = 1.4. We have to find V₂.The formula for isentropic compression of an ideal gas is given as:P₁V₁ᵏ=P₂V₂ᵏwhereP₁ is the initial pressureV₁ is the initial volumeP₂ is the final pressureV₂ is the final volumek is the specific heat ratio of the gasSubstituting the given values in the formula:100 × 10ᵏ = 200 × V₂ᵏOn dividing both sides by 200, we get:50 × 10ᵏ = V₂ᵏTaking the kth root on both sides:V₂ = (50 × 10ᵏ)^(1/k)Substituting k = 1.4V₂ = (50 × 10¹⁴/10¹⁰)^(1/1.4)V₂ = (50 × 10^4)^(5/7)V₂ = 4500 cubic inchesHence, the correct option is OA 4.500 in ³.

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A straight wire carrying a current of 10.0 A is in proximity to another wire carrying a current of 3.0 A. The current is flowing in the same direction (ie Up for each). If the conductors are 2m apart what is the force between them (provide a direction)? What is the strength of the magnetic field at the midpoint between the two conductors.

Answers

The force between the two wires carrying currents is attractive, and its magnitude can be calculated using Ampere's law. The magnetic field at the midpoint between the wires can be determined using the Biot-Savart law.

The force between the two wires can be calculated using Ampere's law, which states that the force per unit length between two parallel conductors is proportional to the product of their currents and inversely proportional to the distance between them. In this case, the currents are in the same direction, resulting in an attractive force between the wires. Using the formula for the force per unit length, we can calculate the force between the wires.

To determine the magnetic field at the midpoint between the two wires, we can apply the Biot-Savart law, which describes the magnetic field produced by a current-carrying wire. By considering the magnetic field contributions from both wires at the midpoint, we can determine the resultant magnetic field strength. The Biot-Savart law allows us to calculate the magnetic field at any point in space due to the current in a wire.

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A body of mass 5kg is connected by a light inelastic string which is passed over a fixed frictionless pulley to a moveable frictionless pulley of mass 1kg over which is wrapped another light inelastic string which connects masses 3kg and 2kg. Find 1) the acceleration of the masses.
2) the tensions in the strings in terms of g, the acceleration dey to gravity​

Answers

(a) The acceleration of the masses is determined as 1.1 m/s² in the direction of the 5 kg mass.

(b) The tension in the string in terms of gravity is T = g.

What is the acceleration of the masses?

(a) The acceleration of the masses is calculated by applying Newton's second law of motion.

F(net) = ma

where;

m is the massesa is the acceleration of the masses

(5 kg x 9.8 m/s² ) - (1 kg + 3 kg )9.8 m/s² = ma

9.8 N = (5kg + 1 kg + 3 kg )a

9.8 = 9a

a = 9.8 / 9

a = 1.1 m/s² in the direction of the 5 kg mass.

(b) The tension in the string in terms of gravity is calculated as follows;

T = ( 5kg)g - (1 kg + 3 kg ) g

T = 5g - 4g

T = g

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The gravitational acceleration at the mean surface of the earth is about 9.8067 m/s². The gravitational acceleration at points A and B is about 9.8013 m/s² and 9.7996 m/s², respectively. Determine the elevation of these points assuming that the radius of the Earth is 6378 km. Round-off final values to 3 decimal places.

Answers

The elevation of point A is 15.945 km and the elevation of point B is 14.715 km

The formula used in solving the problem is given below:

h = R[2ga/G - 1]

Where

h = elevation

R = radius of Earth

ga = gravitational acceleration at A or B in m/s2

G = gravitational constant

The values of ga are

ga = 9.8013 m/s² at point A

ga = 9.7996 m/s² at point B.

Substituting these values into the formula gives the elevation

hA = R[2(9.8013)/9.8067 - 1]

    = R[1.0025 - 1]

    = R(0.0025)

hB = R[2(9.7996)/9.8067 - 1]

     = R[1.0023 - 1]

     = R(0.0023)

Thus the elevation of point A is 6378 km x 0.0025 = 15.945 km.

The elevation of point B is 6378 km x 0.0023 = 14.715 km (rounded to 3 decimal places).

Therefore, the elevation of point A is 15.945 km and the elevation of point B is 14.715 km (rounded to 3 decimal places).

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Get the equation for energy. Explain the physical meaning of
energy in cfd.

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The equation for energy in the context of fluid dynamics, specifically in Computational Fluid Dynamics (CFD), is typically represented by the conservation of energy equation, also known as the energy equation or the first law of thermodynamics. The equation can be expressed as:

ρ * (du/dt + u * ∇u) = -∇p + ∇⋅(μ * (∇u + (∇u)^T)) + ρ * g + Q

where:

ρ is the density of the fluid

u is the velocity vector

t is time

∇u represents the gradient of velocity

p is the pressure

μ is the dynamic viscosity

g is the gravitational acceleration vector

Q represents any external heat source/sink

The physical meaning of energy in CFD is the total energy of the fluid system, which includes kinetic energy (associated with the motion of the fluid), potential energy (associated with the elevation of the fluid due to gravity), and internal energy (associated with the fluid's temperature and pressure). The energy equation describes how this total energy is conserved and transformed within the fluid system.

In CFD simulations, the energy equation plays a crucial role in modeling the energy transfer, heat transfer, and flow characteristics within the fluid. It helps in understanding how energy is distributed, dissipated, and exchanged within the fluid domain. By solving the energy equation numerically, CFD simulations can predict temperature profiles, flow patterns, heat transfer rates, and other important parameters that are essential for various engineering applications, such as designing efficient cooling systems, optimizing combustion processes, and analyzing thermal behavior in fluid flows.

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We have a 3 phase 11kV line with a line length of 10km. The conductor is Fox. What will the voltage be at the end of the line if the load is 50A?
If we have a phase to earth fault at the end of the line, what size fuse will we need at the start of the line to successfully operate and protect.

Answers

The fuse size should be at least 75 A is the answer.

The conductor is Fox, and we have a 3-phase 11kV line with a line length of 10km. To find out what the voltage will be at the end of the line if the load is 50A, we have to use Ohm's Law formula. We also know that the power factor is 0.85. Therefore, Voltage drop, V = IZ, where I is the current, and Z is the impedance of the line. Z can be calculated as Z = R + jX, where R is the resistance of the line, and X is the inductive reactance of the line. The voltage drop in a 3-phase system, Vp = √3 Vl cosϕ, where Vp is the voltage drop per phase, Vl is the line voltage, and ϕ is the power factor. Using the above formulas, we can calculate the voltage drop per phase:

Vp = 11 kV * √3 * 0.85 * (10/3) / (50 * 1000)

= 0.1456 kV

Therefore, the voltage at the end of the line will be:

11 kV - 0.1456

kV = 10.8544 kV

If there is a phase-to-earth fault at the end of the line, we will need a fuse at the start of the line that will be able to protect the cable.

To calculate the size of the fuse, we need to know the short-circuit current at the end of the line.

The formula for calculating the short-circuit current is Isc = Vp / (Zs + Zc), where Vp is the voltage drop per phase, Zs is the impedance of the source, and Zc is the impedance of the cable.

Assuming that the source impedance is negligible, we can calculate the cable impedance as Zc = R + jX = 0.455 + j0.659 Ω.

Then Isc = 10.8544 kV / (0.455 + j0.659) Ω = 17.8 A.

The fuse rating is typically chosen to be about 1.5 to 2 times the maximum load current.

Therefore, the fuse size should be at least 75 A.

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I will give brainliest to whoever answers all three asap :)

1. A 1.0 g insect flying at 2.0 km/h collides head-on with an 800 kg, compact car travelling at 90 km/h. Which object experiences the greater change in momentum during the collision?
a) Neither object experiences a change in momentum
b) The insect experiences the greater change in momentum
c) The compact car experiences the greater change in momentum
d) Both objects experience the same, non-zero change in momentum

2. Why are hockey and football helmets well padded?
a) to decrease the time of a collision, decreasing the force to the head
b) to decrease the time of a collision, increasing the force to the head
c) to increase the time of a collision, decreasing the force to the head
d) to increase the time of a collision, Increasing the force to the head

3. A 68.5 kg man and a 41.0 kg woman are standing at rest before performing a figure skating routine. At the start of the routine, the two skaters push off against each other, giving the woman a velocity of 3.25 m/s [N]. Assuming there is no friction between the skate blades and the ice, what is the man's velocity due to their push?

Answers

1. b) The insect experiences the greater change in momentum during the collision.

2. C) Hockey and football helmets are well padded to increase the time of a collision, decreasing the force to the head

3.  The man's velocity due to their push is 0 m/s.

1. B. The insect experiences the greater change in momentum during the collision. Change in momentum is given by the formula Δp = mΔv, where Δp is the change in momentum, m is the mass, and Δv is the change in velocity. Although the mass of the car is much larger than the insect, the change in velocity experienced by the insect is significantly greater. Since the insect collides head-on with the car, its velocity changes from 2.0 km/h to nearly zero, resulting in a substantial change in momentum. On the other hand, the change in velocity of the car is relatively small since it collides with an object of much smaller mass. Therefore, the insect experiences the greater change in momentum.

2. Hockey and football helmets are well padded C. to increase the time of a collision, decreasing the force to the head. The padding in the helmets acts as a cushion, which extends the duration of the collision between the helmet and an object, such as a puck or a player. By increasing the collision time, the force experienced by the head is reduced. This is because the force of impact is given by the equation F = Δp/Δt, where F is the force, Δp is the change in momentum, and Δt is the change in time. By increasing the time, the force is spread out over a longer duration, resulting in a decrease in the force exerted on the head.

3. To determine the man's velocity due to their push, we can apply the principle of conservation of momentum. According to this principle, the total momentum before the push is equal to the total momentum after the push. Since the woman has a velocity of 3.25 m/s [N] after the push, the man's velocity can be calculated as follows:

Total initial momentum = Total final momentum

(0 kg) + (41.0 kg)(0 m/s) = (68.5 kg + 41.0 kg)(v)

Simplifying the equation, we find:

0 = 109.5 kg * v

Dividing both sides by 109.5 kg, we get:

v = 0 m/s

Therefore, the man's velocity due to their push is 0 m/s. This means that he remains at rest while the woman gains velocity in the north direction.

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Four point charges are held fixed in space on the corners of a rectangle with a length of 20 [cm] (in the horizontal direction) and a width of 10 [cm] (in the vertical direction). Starting with the top left corner and going clockwise, the charges are 9,=+10[nC], 92=-10[nC], 93=-5[nC), and 94=+8[nC). a) Find the magnitude and direction of the electric force on charge 94 b) Find the magnitude and direction of the electric field at the midpoint between 93 and 94 c) Find the magnitude and direction of the electric field at the center of the rectangle.

Answers

The magnitude of the electric force on charge 94 is approximately 4.81125 N. The direction can be determined based on the resultant vector of the individual forces.

To solve this problem, let's calculate the electric force and electric field step by step:

a) Magnitude and direction of the electric force on charge 94:

The electric force between two charges can be calculated using Coulomb's Law:

Electric force (F) = (k * |q1 * q2|) / r^2

where k is the electrostatic constant (k ≈ 8.99 × 10^9 N m^2/C^2), q1 and q2 are the charges, and r is the distance between the charges.

We need to calculate the net force on charge 94 due to the other charges. Let's calculate the force individually for each pair of charges and then find the vector sum:

Force on charge 94 due to charge 91:

F_941 = (k * |q9 * q1|) / r_941^2

Force on charge 94 due to charge 92:

F_942 = (k * |q9 * q2|) / r_942^2

Force on charge 94 due to charge 93:

F_943 = (k * |q9 * q3|) / r_943^2

To find the net force, we need to consider the direction as well. Since the charges are held fixed, the net force should be in the direction of the resultant vector of the individual forces.

Net force on charge 94 = F_941 + F_942 + F_943

Calculate the distances between the charges:

r_941 = diagonal length of rectangle

r_942 = length of rectangle

r_943 = diagonal length of rectangle

Given:

Length of rectangle (L) = 20 cm = 0.2 m

Width of rectangle (W) = 10 cm = 0.1 m

Using the Pythagorean theorem:

Diagonal length of rectangle (d) = √(L^2 + W^2)

                            = √((0.2 m)^2 + (0.1 m)^2)

                            = √(0.04 m^2 + 0.01 m^2)

                            = √(0.05 m^2)

                            = 0.2236 m

Substituting the values, we can calculate the forces:

F_941 = (8.99 × 10^9 N m^2/C^2 * |8 × 10^(-9) C * 10 × 10^(-9) C|) / (0.2236 m)^2

     ≈ 1.815 N

F_942 = (8.99 × 10^9 N m^2/C^2 * |8 × 10^(-9) C * (-10) × 10^(-9) C|) / (0.2 m)^2

     ≈ 1.9975 N

F_943 = (8.99 × 10^9 N m^2/C^2 * |8 × 10^(-9) C * (-5) × 10^(-9) C|) / (0.2236 m)^2

     ≈ 0.99875 N

Now, calculate the net force:

Net force on charge 94 = F_941 + F_942 + F_943

                     = 1.815 N + 1.9975 N + 0.99875 N

                     ≈ 4.81125 N

The magnitude of the electric force on charge 94 is approximately 4.81125 N. The direction can be determined based on the resultant vector of the individual forces.

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A grinding wheel is a uniform cylinder with a radius of 7.20 cm and a mass of 0.350 kg <3 of 3 Constants Calculate its moment of inertia about its center. Express your answer to three significant figures and include the appropriate units. Calculate the applied torque needed to accelerate it from rest to 1750 rpm in 6.80 s. Take into account a frictional torque that has been measured to slow down the wheel from 1500 rpm to rest in 62.0 s Express your answer to three significant figures and include the appropriate units.

Answers

Plugging in the given values, we have I = (1/2)(0.350 kg)(0.072 m)² = 0.055 kg·m². This is the moment of inertia of the grinding wheel about its center.

To calculate the applied torque (τ) needed to accelerate the wheel, we use the equation τ = Iα, where α is the angular acceleration. The initial angular velocity is 0 (since the wheel starts from rest), and the final angular velocity is (1750 rpm)(2π rad/min) = (1750)(2π/60) rad/s. The time taken (t) is 6.80 s. Using the formula α = (ω - ω₀)/t, where ω is the final angular velocity and ω₀ is the initial angular velocity, we can calculate the angular acceleration. Substituting the values into τ = Iα, we can find the applied torque.

The frictional torque (τ_friction) that slows down the wheel is also given by τ_friction = Iα, where α is the angular acceleration. The initial angular velocity is (1500 rpm)(2π/60) rad/s, the final angular velocity is 0 (since the wheel comes to rest), and the time taken is 62.0 s. Using the formula α = (ω - ω₀)/t, we can calculate the angular acceleration. Substituting the values into τ_friction = Iα, we can find the frictional torque.

The applied torque is the difference between the torque needed for acceleration and the frictional torque: τ_applied = τ - τ_friction.

By performing the calculations, taking into account the given values and equations, we can determine the applied torque needed to accelerate the wheel and the effect of the frictional torque.

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Watching a car recede at 21 m/s, you notice that after 11 min the two taillights are no longer resolvable. If the diameter of your pupil is 5.0 mm in the dim ambient lighting, explain the reasoning for the steps that allow you to determine the spacing of the lights.

Answers

To determine the spacing of the taillights, you can use the concept of angular resolution. By considering the speed of the receding car, the time elapsed, the diameter of your pupil, and the distance traveled by the car, you can calculate the spacing between the taillights.

When observing a receding car, the spacing between its taillights can be determined by considering the concept of angular resolution. Angular resolution refers to the smallest angle at which two objects can be distinguished. In this scenario, you first convert the given time of 11 minutes to seconds (660 seconds) and calculate the distance traveled by the car during that time using its speed of 21 m/s (13,860 meters).

To determine the spacing between the taillights, you need to consider your line of sight. The diameter of your pupil, given as 5.0 mm, is converted to meters (0.005 meters). The angular resolution is then determined by dividing the diameter of your pupil by the distance between the taillights. By multiplying the angular resolution by the distance traveled by the car, you can calculate the spacing between the taillights. In this case, the spacing is equal to 0.005 meters.

Therefore, by following these steps and considering the relevant variables, you can determine the spacing between the taillights based on the concept of angular resolution and the given parameters.

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A glass sheet 1.30 μm thick is suspended in air. In reflected light, there are gaps in the visible spectrum at 547 nm and 615.00 nm. Calculate the minimum value of the index of refraction of the glass sheet that produces this effect.

Answers

The case of light reflected from the upper surface of the film, we found that the minimum value of the refractive index of the glass sheet that produces the gaps in the visible spectrum at 547 nm and 615.00 nm is 1.466. Therefore, we can conclude that this is the answer.

Given data:Thickness of glass sheet (t) = 1.30 μmGaps in the visible spectrum at 547 nm and 615.00 nmWe know that when light is reflected from a thin film, we see colored fringes due to interference of light waves.

The conditions for minimum reflection from a thin film are:When the thickness of the film is odd multiples of λ/4 i.e. t = (2n+1)(λ/4)when there is no phase change at the reflection i.e. when the reflected wave is in phase with the incoming wave.

Assuming the light is reflecting from the upper surface of the film, we can find the refractive index (n) of the glass sheet using the formula: t = [(2n + 1) λ1]/4where λ1 is the wavelength of light in air.The gaps are seen at λ = 547 nm and λ = 615 nm

Therefore, applying above formulae for both wavelengths and taking the difference of the refractive indices: t = [(2n + 1) λ1]/4When λ = 547 nm ⇒ λ1 = λ/n = 547/nTherefore, t = [(2n + 1) λ]/4⇒ 1.3 × 10⁻⁶ = [(2n + 1) × 547 × 10⁻⁹]/4⇒ 2n + 1 = 4 × 1.3/547 ⇒ 2n + 1 = 0.0095n = 2⇒ Refractive index (n) = λ/λ1 = 547/λ1t = [(2n + 1) λ1]/4When λ = 615 nm ⇒ λ1 = λ/n = 615/n

Therefore, t = [(2n + 1) λ]/4⇒ 1.3 × 10⁻⁶ = [(2n + 1) × 615 × 10⁻⁹]/4⇒ 2n + 1 = 4 × 1.3/615 ⇒ 2n + 1 = 0.0085n = 2⇒ Refractive index (n) = λ/λ1 = 615/nDifference in refractive indices (Δn) = n(λ=547) - n(λ=615)= 547/n - 615/n = 547/2 - 615/2= -34To produce the effect of minimum reflection, the minimum value of the refractive index of the glass sheet is 1.5 - 0.034 = 1.466.

For the case of light reflected from the upper surface of the film, we found that the minimum value of the refractive index of the glass sheet that produces the gaps in the visible spectrum at 547 nm and 615.00 nm is 1.466. Therefore, we can conclude that this is the answer.

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Which has the greater density—1 kg of sand or 10 kg of sand?.
Explain

Answers

The density of 1 kg of sand and 10 kg of sand is the same because the ratio of mass to volume remains constant.

Density is defined as mass per unit volume. In this case, we are comparing the densities of 1 kg of sand and 10 kg of sand.

Assuming the sand is uniform, the density remains constant regardless of the amount of sand. This means that both 1 kg of sand and 10 kg of sand have the same density.

To understand why the density remains the same, let's consider the definition of density:

Density = Mass / Volume

In this scenario, we are comparing the densities of two different amounts of sand: 1 kg and 10 kg. The mass increases by a factor of 10, but the volume also increases by the same factor. Assuming the sand particles remain the same and there is no compaction or voids, the volume scales linearly with mass.

Therefore, the density of 1 kg of sand and 10 kg of sand is the same because the ratio of mass to volume remains constant.

In conclusion, both 1 kg of sand and 10 kg of sand have the same density since the increase in mass is accompanied by an equal increase in volume.

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You are sitting in a bus in a depot, when suddenly you see in the window the bus next to yours start to move forward. List two scenarios that could be happening

Answers

Two scenarios that could be happening when you see the bus next to yours start to move forward are:

1. The driver of the other bus is preparing to leave the depot: The bus next to yours may be scheduled to depart from the depot at that time. The driver could be starting the engine, adjusting the mirrors, and getting ready to drive the bus out of the depot and onto its designated route.

2. The bus next to yours is being repositioned or relocated: It is possible that the bus is not scheduled to depart immediately but is being moved within the depot for organizational purposes. The bus could be relocated to a different parking spot, maintenance area, or designated area for cleaning or fueling. The movement could be part of the regular operations of the bus depot to ensure the smooth functioning and maintenance of the buses.

These scenarios highlight common activities that can occur in a bus depot, where buses are managed, prepared, and moved as part of their operational routines.

A high-voltage line operates at 500 000 V-rms and carries an rms current of 500 A. If the resistance of the cable is 0.50Ω/km, what is the resistive power loss over 200 km of the high-voltage line?
A.
500 kW
B.
25 Megawatts
C.
250 Megawatts
D.
1 Megawatt
E.
2.5 Megawatts

Answers

The resistive power loss over 200 km of the high-voltage line is 250 Megawatts. It corresponds to option C.

To calculate the resistive power loss, we need to determine the total resistance of the cable and then use the formula [tex]\text{P}=\text{I}^{2}\text{R}[/tex], where P is the power loss, I is the rms current, and R is the total resistance.

Given that the resistance of the cable is 0.50Ω/km, the total resistance for 200 km can be calculated as follows:

Total Resistance = (Resistance per kilometer) × (Total distance)

[tex]\text{R}=0.50\times200\\\text{R}=100\Omega[/tex]

Resistive power refers to the power loss or dissipation that occurs in a circuit or system due to the resistance of its components. It is the power that is converted into heat as electric current flows through a resistive element. Now, we can calculate the resistive power loss:                             Power Loss = (rms current)^2 × Total Resistance

[tex]\text{Power Loss}=\text{rms current}^2\times \text{total resistance}\\\\text{P}=500^{2}\times100\\\text{P}=250000\ \text{W}\\\text{P}=250\ \text{Megawatt}[/tex]

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An air parcel begins to ascent from an altitude of 1200ft and a
temperature of 81.8°F. It reaches saturation at 1652 ft. What is
the temperature at this height? The air parcel continues to rise to
22

Answers

Given information:An air parcel begins to ascent from an

altitude

of 1200ft and a temperature of 81.8°F.It reaches

saturation

at 1652 ft.Now we have to find the temperature at this height?

The air parcel continues to rise to 22To find the temperature of the air parcel at an altitude of 1652 ft, we need to use the adiabatic lapse rate.

Adabatic lapse

rate refers to the rate of decrease of temperature with altitude in the troposphere, which is approximately 6.5 °C (11.7 °F) per kilometer (or 3.57 °F per 1,000 feet) of altitude.

Let T1 = 81.8°F be the temperature at an altitude of 1200ftand T2 = temperature at an altitude of 1652 ftLet the lapse rate be -6.5°C/km (or -3.57 °F / 1000ft).

At a height difference of 452 ft (1652 - 1200), the temperature decreases by 2.94°F (0.53°C),T2 = T1 - (lapse rate x height difference)T2 = 81.8 - (3.57 x 0.452)T2 = 80.6°F.

Therefore, at an altitude of 1652 ft, the temperature of the air parcel is approximately 80.6°F.

Given an air parcel starting at an altitude of 1200 ft with a temperature of 81.8°F, it reaches saturation at an altitude of 1652 ft. It is required to find out the temperature of the air parcel at 1652 ft. It is also given that the

air parcel

continues to rise to an unknown height.The answer to this problem requires the use of the adiabatic lapse rate formula.

Adiabatic lapse rate is defined as the rate at which temperature decreases with an increase in altitude in the troposphere. The

standard adiabatic lapse rate

is 6.5°C per kilometer, or 3.57°F per 1000 feet of altitude.

Let T1 = 81.8°F be the temperature at an altitude of 1200 ft.

Let T2 be the temperature at an altitude of 1652 ft.Let the lapse rate be -6.5°C/km (or -3.57 °F / 1000ft).

The temperature at an altitude of 1652 ft can be calculated asT2 = T1 - (lapse rate x height difference)T2 = 81.8 - (3.57 x 0.452)T2 = 80.6°F.

Therefore, at an altitude of 1652 ft, the temperature of the air parcel is approximately 80.6°F.

The

temperature

of the air parcel at an altitude of 1652 ft is 80.6°F. The adiabatic lapse rate formula was used to determine the temperature at this height.

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The temperature at which an air parcel reaches saturation is known as the dew point temperature. To determine the temperature at 1652 ft, we need to use the temperature equation, which relates the temperature and altitude of an ascending air parcel.


First, let's determine the temperature lapse rate, which is the rate at which the temperature changes with altitude. This can vary depending on atmospheric conditions, but a typical value is around 3.6°F per 1000 ft.

Using this lapse rate, we can calculate the change in temperature from 1200 ft to 1652 ft.

Change in altitude = 1652 ft - 1200 ft = 452 ft

Change in temperature = lapse rate * (change in altitude / 1000)

Change in temperature = 3.6°F/1000 ft * 452 ft = 1.6272°F

Next, we subtract the change in temperature from the initial temperature of 81.8°F to find the temperature at 1652 ft.

Temperature at 1652 ft = 81.8°F - 1.6272°F = 80.1728°F

Therefore, the temperature at 1652 ft is approximately 80.17°F.

The temperature at 1652 ft is approximately 80.17°F.

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An object of mass m is suspended from a spring whose elastic constant is k in a medium that opposes the motion with a force opposite and proportional to the velocity. Experimentally the frequency of the damped oscillation has been determined and found to be √3/2 times greater than if there were no damping.
Determine:
a) The equation of motion of the oscillation.
b) The natural frequency of oscillation
c) The damping constant as a function of k and m

Answers

The equation of motion of the oscillation is m * d^2x/dt^2 + (c/m) * dx/dt + k * x = 0.The natural frequency of oscillation is 4km - 3k - c^2 = 0.The damping constant is = ± √(4km - 3k)

a) To determine the equation of motion for the damped oscillation, we start with the general form of a damped harmonic oscillator:

m * d^2x/dt^2 + c * dx/dt + k * x = 0

where:

m is the mass of the object,

c is the damping constant,

k is the elastic constant of the spring,

x is the displacement of the object from its equilibrium position,

t is time.

To account for the fact that the medium opposes the motion with a force opposite and proportional to the velocity, we include the damping term with a force proportional to the velocity, which is -c * dx/dt. The negative sign indicates that the damping force opposes the motion.

Therefore, the equation of motion becomes:

m * d^2x/dt^2 + c * dx/dt + k * x = -c * dx/dt

Simplifying this equation gives:

m * d^2x/dt^2 + (c/m) * dx/dt + k * x = 0

b) The natural frequency of oscillation, ω₀, can be determined by comparing the given frequency of damped oscillation, f_damped, with the frequency of undamped oscillation, f_undamped.

The frequency of damped oscillation, f_damped, can be expressed as:

f_damped = (1 / (2π)) * √(k / m - (c / (2m))^2)

The frequency of undamped oscillation, f_undamped, can be expressed as:

f_undamped = (1 / (2π)) * √(k / m)

We are given that the frequency of damped oscillation, f_damped, is (√3/2) times greater than the frequency of undamped oscillation, f_undamped:

f_damped = (√3/2) * f_undamped

Substituting the expressions for f_damped and f_undamped:

(1 / (2π)) * √(k / m - (c / (2m))^2) = (√3/2) * (1 / (2π)) * √(k / m)

Squaring both sides and simplifying:

k / m - (c / (2m))^2 = (3/4) * k / m

k / m - (c / (2m))^2 - (3/4) * k / m = 0

Multiply through by 4m to clear the fractions:

4km - c^2 - 3k = 0

Rearranging the equation:

4km - 3k - c^2 = 0

We can solve this quadratic equation to find the relationship between c, k, and m.

c) The damping constant, c, as a function of k and m can be determined by solving the quadratic equation obtained in part (b). Rearranging the equation:

c^2 - 4km + 3k = 0

Using the quadratic formula:

c = ± √(4km - 3k)

Note that there are two possible solutions for c due to the ± sign.

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P.(s) may be converted to PH3(g) with H₂(g). The standard Gibbs energy of formation of PH3(g) is +13.4 kJ mol at 298 K. What is the corresponding reaction Gibbs energy when the partial pressures of the H2 and PH3 (treated as perfect gases) are 1.0 bar and 0.60 bar, respectively? What is the spontaneous direction of the reaction in this case?

Answers

The reaction Gibbs energy when the partial pressures of H2 and PH3 are 1.0 bar and 0.6 bar, respectively, is +12.1 kJ/mol. In this case, the reverse reaction is spontaneous.

The reaction Gibbs energy (ΔG_rxn) can be calculated using the equation:

ΔG_rxn = ΣnΔGf(products) - ΣnΔGf(reactants)

Given that the standard Gibbs energy of formation (ΔGf) of PH3(g) is +13.4 kJ/mol, we can substitute this value into the equation:

ΔG_rxn = (1 mol × 0 kJ/mol) - (1 mol × (+13.4 kJ/mol))

Simplifying the equation, we get:

ΔG_rxn = -13.4 kJ/mol

Since the reaction Gibbs energy is negative, the forward reaction is not spontaneous. However, the reverse reaction is spontaneous, indicated by the positive value of the reaction Gibbs energy. This means that the reaction will tend to proceed in the reverse direction, from PH3 to H2.

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Help: The diagram below illustrates a light ray bouncing off a surface. Fill in the boxes with the correct terms.

Answers

The correct terms that fills the box are;

(i) The incident ray

(ii) The normal

(iii) The reflected ray

(iv) The angle of incident

(v) The reflected angle

What is the terms of the ray diagram?

The terms of the ray diagram is illustrated as follows;

(i) This arrow indicates the incident ray, which is known as the incoming ray.

(ii) This arrow indicates the normal, a perpendicular line to the plane of incidence.

(iii) This arrow indicates the reflected ray; the out going arrow.

(iv) This the angle of incident or incident angle.

(v) This is the reflected angle or angle of reflection.

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loop coincides with the wire. Calculate the magnitude of the force exerted on the loop

Answers

A loop coincides with the wire.

To calculate the magnitude of the force exerted on the loop, we can use the formula:

F = BILsinθ, where F is the magnitude of the force exerted on the loop, B is the magnetic field strength, I is the current flowing through the wire, L is the length of the loop, and θ is the angle between the magnetic field and the plane of the loop.

Since the loop coincides with the wire, the angle θ between the magnetic field and the plane of the loop is 0 degrees. Therefore, sinθ = sin0 = 0. So the formula simplifies to:

F = BIL x 0 = 0

The force exerted on the loop is zero.

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An oscillating LC circuit consisting of a 1.3 nF capacitor and a 4.0 mH coil has a maximum voltage of 3.8 V. What are (a) the maximum charge on the capacitor, (b) the maximum current through the circuit, (c) the maximum energy stored in the magnetic field of the coil? (a) Number 4.9 Units nc (b) Number ___ Units A (c) Number ___ Units nJ

Answers

a) The maximum charge on the capacitor is approximately 4.94 nC.

b) The maximum current through the circuit is approximately 0.043 A.

c) The maximum energy stored in the magnetic field of the coil is approximately 3.49 μJ.

(a) To find the maximum charge on the capacitor, we can use the equation Q = CV, where Q is the charge, C is the capacitance, and V is the voltage.

C = 1.3 nF = 1.3 × 10^(-9) F

V = 3.8 V

Substituting these values into the equation, we have:

Q = (1.3 × 10^(-9) F) × (3.8 V) = 4.94 × 10^(-9) C

(b) The maximum current through the circuit can be found using the equation I = ωQ, where I is the current, ω is the angular frequency, and Q is the charge.

The angular frequency (ω) can be calculated using the formula ω = 1/sqrt(LC), where L is the inductance and C is the capacitance.

L = 4.0 mH = 4.0 × 10^(-3) H

C = 1.3 nF = 1.3 × 10^(-9) F

Substituting these values into the formula, we have:

ω = 1/sqrt((4.0 × 10^(-3) H) × (1.3 × 10^(-9) F)) ≈ 8.65 × 10^6 rad/s

Now, substituting the value of ω and Q into the equation for current, we get:

I = (8.65 × 10^6 rad/s) × (4.94 × 10^(-9) C) ≈ 4.27 × 10^(-2) A

(c) The maximum energy stored in the magnetic field of the coil can be calculated using the formula E = (1/2)LI^2, where E is the energy, L is the inductance, and I is the current.

L = 4.0 mH = 4.0 × 10^(-3) H

I = 0.043 A (from part b)

Substituting these values into the formula, we have:

E = (1/2) × (4.0 × 10^(-3) H) × (0.043 A)^2 ≈ 3.49 × 10^(-6) J

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A tennis ball is thrown vertically upwards at 29 m/sec from a height of 80 m above the ground. Determine the time it takes (in sec) for the tennis ball to hit the ground. (Use g = 9.8 m/s^2)

Answers

A tennis ball is thrown vertically upwards at 29 m/sec from a height of 80 m above the ground  time cannot be negative, we discard t = 0 and conclude that it takes approximately 5.92 seconds for the tennis ball to hit the ground.

To determine the time it takes for the tennis ball to hit the ground, we can use the kinematic equation for vertical motion:

h = ut + (1/2)gt²

Where:

h is the initial height (80 m)

u is the initial velocity (29 m/s)

g is the acceleration due to gravity (-9.8 m/s²)

t is the time

We want to find the time it takes for the ball to hit the ground, which means the final height will be 0.

0 = (29)t + (1/2)(-9.8)t²

This equation represents a quadratic equation in terms of t. We can solve it by rearranging and factoring:

(1/2)(-9.8)t² + 29t = 0

Simplifying further:

-4.9t² + 29t = 0

Now, we can factor out t:

t(-4.9t + 29) = 0

This equation will be true when either t = 0 or -4.9t + 29 = 0.

From -4.9t + 29 = 0, we can solve for t:

-4.9t = -29

t = -29 / -4.9

t ≈ 5.92 s

Since time cannot be negative, we discard t = 0 and conclude that it takes approximately 5.92 seconds for the tennis ball to hit the ground.

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What is the energy of a photon that has the same wavelength as a 100-eV electron?
1) 100 eV
2) 10,000 eV
3) 1000 eV
4) 200 eV
5) 50 eV

Answers

The energy of the photon with the same wavelength as a 100-eV electron is:E = (hc)/(λ) = (1240 eV nm)/(12.4 pm) = 100 eVThus, the energy of the photon is 100 eV

The correct answer is option 1) 100 eV.Explanation:A photon is a massless particle that is a quantum of light. Its energy and wavelength are related through the equation:λ = hc/Ewhereλ = wavelength of the photonh = Planck's constantc = speed of lightE = energy of the photonAn electron with an energy of 100 eV will have a wavelength ofλ = h/(mv)where m is the mass of the electron and v is its velocity.

Using the De Broglie equation, we know that the wavelength of the electron isλ = h/(mv)Given that the energy of the photon is equal to the energy of the electron, we can equate the two expressions above:λ = hc/EEquating both equations, we get:hc/E = h/(mv)E = (hc)/(λ)Therefore, the energy of the photon with the same wavelength as a 100-eV electron is:E = (hc)/(λ) = (1240 eV nm)/(12.4 pm) = 100 eVThus, the energy of the photon is 100 eV.

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