a ceiling fan is turned on and a net torque of 1.6 n·m applied to the blades. the blades have a total moment of inertia of 0.60 kg·m2. what is the angular acceleration of the blades?

Answers

Answer 1

If a net torque of 1.6 n·m is applied to the blades of a fan having a moment of inertia of 0.6 kg.m² then the angular acceleration of the blades is 2.67 rad/s².

The relationship between torque, moment of inertia, and angular acceleration is given by the equation:

Net torque = moment of inertia x angular acceleration

We are given the net torque as 1.6 n·m and the moment of inertia as 0.60 kg·m².

1.6 n·m = 0.60 kg·m² x angular acceleration

Angular acceleration = 1.6 n·m / 0.60 kg·m²
Angular acceleration = 2.67 rad/s²
Therefore, the angular acceleration of the blades is 2.67 rad/s².

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Related Questions

Calculate the acceleration of a skier heading down a 10.0 deg, slope, assuming the coefficient of friction for waxed wood on wet snow. (The coefficient of kinetic friction for waxed wood on wet snow is 0.1) (b) Find the angle of the slope down which this skier could coast at a constant velocity.
Drawings and/ or diagrams would be a big help!

Answers

To calculate the acceleration of the skier, we can use the formula a = gsinθ - μkcosθ, where g is the acceleration due to gravity (9.8 m/s^2), θ is the angle of the slope (10.0 deg), and μk is the coefficient of kinetic friction (0.1).

Plugging in the values, we get:
a = (9.8 m/s^2)(sin 10.0) - (0.1)(cos 10.0)
a = 1.67 m/s^2

Therefore, the acceleration of the skier is 1.67 m/s^2.

To find the angle of the slope down which the skier could coast at a constant velocity, we can use the formula μk = tanθ, where μk is the coefficient of kinetic friction. Solving for θ, we get:


θ = tan^-1(μk)
θ = tan^-1(0.1)
θ = 5.74 deg

Therefore, the skier could coast at a constant velocity down a slope with an angle of 5.74 deg or less, assuming the coefficient of friction for waxed wood on wet snow.

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To calculate the acceleration of the skier, we can use the formula a = gsinθ - μkcosθ, where g is the acceleration due to gravity (9.8 m/s^2), θ is the angle of the slope (10.0 deg), and μk is the coefficient of kinetic friction (0.1).

Plugging in the values, we get:
a = (9.8 m/s^2)(sin 10.0) - (0.1)(cos 10.0)
a = 1.67 m/s^2

Therefore, the acceleration of the skier is 1.67 m/s^2.

To find the angle of the slope down which the skier could coast at a constant velocity, we can use the formula μk = tanθ, where μk is the coefficient of kinetic friction. Solving for θ, we get:


θ = tan^-1(μk)
θ = tan^-1(0.1)
θ = 5.74 deg

Therefore, the skier could coast at a constant velocity down a slope with an angle of 5.74 deg or less, assuming the coefficient of friction for waxed wood on wet snow.

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Part A
Who will hear the voice of a singer first: a person in the balcony 47.0m away from the stage , or a person 1200 km away at home whose ear is next to the radio listening.
next to radio
Correct
Part B(please answer)
How much sooner? Assume that the microphone is a few centimeters from the singer and the temperature is 20?C (speed of sound is 343 m/s).

Answers

A. The voice of a singer will be heard first by someone in the balcony 47.0m away from the stage. (B) The person on the balcony will hear the sound 3498.9878 s before the person sitting next to the radio at home.

What is the fastest sound speed?

The team discovered that sound can travel at its fastest at 36 km (22.4 mi) per second. That's more than 100 times faster than its average speed through air (343 m (1,125 ft) per second) and three times faster than its previously measured top speed through diamond (12 km (7.5 mi) per second).

To calculate the time difference,

we need to find the time taken by sound to travel a distance of 1200 km and 47 m.

Using the formula for the speed of sound  v = d/t where, v = speed of sound = 343 m/s t = time taken by sound to travel a distance of d.

d = 1200000 m

t = d/v=1200000/343

 =3499.125 s

For a person in the balcony, d = 47 m

t = d/v=47/343=0.1372 s

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When a potential difference is applied across a piece of wire made of metal A, a 5.0-mA current flows. If the metal-A wire is replaced with a wire made of metal B having twice the diameter of the metal-A wire, how much current will flow through the metal-B wire? The lengths of both wires are the same, and the voltage difference remains unchanged. The resistivity of metal A is 1.68x10^-8 ?m, and the resistivity of metal B is 1.59x10^-8 ?m.
Answer is in mA.

Answers

The current in the metal-B wire is calculated using Ohm's Law.

When a potential difference is applied across a piece of wire made of metal A, a 5.0-mA current flows. If the metal-A wire is replaced with a wire made of metal B having twice the diameter of the metal-A wire, how much current will flow through the metal-B wire?

The current that flows through a wire depends on the wire's resistance, which is determined by the wire's material, length, and cross-sectional area. In this scenario, the voltage difference is constant, so the only factors that affect the current are the resistance of the wire and the wire's diameter.

The resistance of a wire is directly proportional to its length and inversely proportional to its cross-sectional area. Since the lengths of both wires are the same, we can compare their cross-sectional areas to determine the ratio of their resistances.

The area of a wire is proportional to the square of its diameter, so if the diameter of the metal-B wire is twice that of the metal-A wire, its cross-sectional area will be four times larger. Therefore, the resistance of the metal-B wire will be one-fourth that of the metal-A wire.

We can use Ohm's Law, which states that current is proportional to voltage divided by resistance, to calculate the current in the metal-B wire. Since the voltage difference is constant and the resistance of the metal-B wire is one-fourth that of the metal-A wire, the current in the metal-B wire will be four times greater than the current in the metal-A wire.

Therefore, the current in the metal-B wire will be 4 x 5.0 mA = 20.0 mA.

In summary, the current in the metal-B wire will be four times greater than the current in the metal-A wire, since the resistance of the metal-B wire is one-fourth that of the metal-A wire due to its larger diameter. The current in the metal-B wire is calculated using Ohm's Law, which states that current is proportional to voltage divided by resistance.

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A silicon step junction is maintained at room temperature, with p-side doping of Na=2e15 /cm3, and an n-side doping of Nd=1016 /cm3. (a) Compute the junction capacitance at Vapplied=0, assuming the diode area is 1.2 sq microns (b) Compute junction capacitance with a reverse bias of 2.2 volts.

Answers

The junction capacitance of a silicon diode was calculated in two scenarios. Firstly, at zero bias, the capacitance was found to be 1.96 x 10^⁻¹¹ F. Secondly, at a reverse bias of 2.2 volts, the capacitance was calculated to be 7.39 x 10⁻¹² F.

The junction capacitance of a silicon step junction can be calculated using the following formula:

Cj = [ (2 * ε * q) / A * (1 / Na + 1 / Nd) ]^(1/2)

where Cj is the junction capacitance, ε is the permittivity of free space, q is the charge of an electron, A is the area of the diode, Na is the p-side doping concentration, and Nd is the n-side doping concentration.

Given:

Na = 2e15 /cm3

Nd = 1e16 /cm3

A = 1.2 μm² = 1.2e-8 cm²

Vapplied = 0 V (for part a) and Vapplied = -2.2 V (for part b)

ε = 8.85e-14 F/cm

q = 1.602e-19 C

(a) For Vapplied = 0 V:

Cj = [ (2 * ε * q) / A * (1 / Na + 1 / Nd) ]^(1/2)

= [ (2 * 8.85e-14 F/cm * 1.602e-19 C) / (1.2e-8 cm²) * (1/2e15 + 1/1e16) ]^(1/2)

= 0.766 pF

Therefore, the junction capacitance at Vapplied = 0 V is 0.766 pF.

(b) For Vapplied = -2.2 V:

Cj = [ (2 * ε * q * (Vbi - Vapplied)) / A * (Na * Nd) ]^(1/2)

where Vbi is the built-in voltage of the diode, which can be calculated using the formula:

Vbi = (kT / q) * ln(Nd * Na / ni²)

where k is the Boltzmann constant, T is the temperature in kelvin, and ni is the intrinsic carrier concentration.

Given:

Vapplied = -2.2 V

k = 1.38e-23 J/K

T = 300 K

ni = 1.5e10 /cm3

Calculating Vbi:

Vbi = (kT / q) * ln(Nd * Na / ni²)

= (1.38e-23 J/K * 300 K / 1.602e-19 C) * ln(1e16 * 2e15 / (1.5e10)²)

= 0.729 V

Substituting Vbi and the other given values into the formula for Cj:

Cj = [ (2 * ε * q * (Vbi - Vapplied)) / A * (Na * Nd) ]^(1/2)

= [ (2 * 8.85e-14 F/cm * 1.602e-19 C * (0.729 V - (-2.2 V))) / (1.2e-8 cm² * (2e15 * 1e16)) ]^(1/2)

= 0.861 pF

Therefore, the junction capacitance with a reverse bias of 2.2 V is 0.861 pF.

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Consider the currents in the figure. 24.0v 5.0 20Ω 0.50 Ω 40Ω -6.0V 1005Ω h Ctheexpertta.com ▲ ly - what equation do you get when you apply Kirchhoff's junction rule at point a? Grade Summary Deductions 0% Potential 100% Submissions Attempts remaining . 0% per attempt) detailed view 4 5 6 12 I give up! Hints-for a 0% ddation Hats remaining Feedback: deduction per feedback. Take careful note of the directions of the currents

Answers

To apply Kirchhoff's junction rule at point a, we need to consider the currents entering and leaving the junction.

Let's assume the currents through the resistors are I1, I2, and I3, where:

I1 is the current through the 20Ω resistor,
I2 is the current through the 0.50Ω resistor,
I3 is the current through the 40Ω resistor.

According to Kirchhoff's junction rule, the sum of currents entering the junction equals the sum of currents leaving the junction. In this case, at point a:

I1 + I2 = I3

This is the equation you get when applying Kirchhoff's junction rule at point a. Remember, this rule is based on the principle of conservation of charge, meaning that no charge is lost or gained at the junction.

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Which constellation would you need to point a telescope towards in order to observe the center of our galaxy?

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To observe the center of our galaxy, you would need to point a telescope towards the constellation Sagittarius. The center of the Milky Way galaxy is located in the direction of Sagittarius, near the border with the constellations Scorpius and Ophiuchus.

However, because the center of the galaxy is obscured by dust clouds, observations at visible wavelengths are difficult. Observations at longer wavelengths, such as infrared and radio, are often used to study the center of the Milky Way.

The Milky Way is a barred spiral galaxy, which means it has a central bar-shaped structure with spiral arms extending outwards. The center of the Milky Way is located about 26,000 light years away from Earth, in the direction of the constellation Sagittarius. However, because the center of the galaxy is obscured by dust clouds, observations at visible wavelengths are difficult.

Infrared observations have been particularly useful for studying the center of the Milky Way. Infrared light can penetrate dust clouds more easily than visible light, allowing astronomers to see through the dust and observe the stars and other objects in the galactic center. Infrared observations have revealed a number of interesting features in the galactic center, including a dense cluster of stars called the Galactic Center Cluster, a large radio source called Sagittarius A*, and a ring-shaped structure known as the Circumnuclear Disk.

Radio observations have also been important for studying the center of the Milky Way. Radio waves can penetrate even deeper into dust clouds than infrared light, allowing astronomers to study objects that are completely obscured at visible and infrared wavelengths. Radio observations have revealed a number of interesting structures in the galactic center, including a complex network of filaments and bubbles that may be associated with the magnetic field of the Milky Way.

Observations of the center of the Milky Way are important for understanding the structure, evolution, and dynamics of our galaxy. They can also help astronomers to study the supermassive black hole that is believed to be located at the center of the Milky Way, and to investigate the processes that drive star formation and galactic evolution.

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a solenoid 1.20 m long and 3.60 cm in diameter carries a current of 24.2 a. the magnetic field inside the solenoid is 33.4 mt. find the length of the wire forming the solenoid.

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The length of the wire forming a solenoid 1.20 m long and 3.60 cm in diameter carries a current of 24.2 A and the magnetic field inside the solenoid is 33.4 mt is 0.365 meters.

To find the length of wire forming the solenoid, we can use the formula for the magnetic field inside a solenoid:

B = μ₀ * n * I

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

We can rearrange this formula to solve for n:

n = B / (μ₀ * I)

Substituting the given values, we get:

n = 33.4 x 10⁻³ T / (4π x 10⁻⁷ T m/A × 24.2 A)

= 358.8 turns/m

To find the length of the wire, we need to know the total number of turns in the solenoid. We can estimate this by assuming that the solenoid is tightly wound with no gaps between the turns. In this case, the length of wire per unit length of the solenoid is given by:

l = π * d² / 4

Where d is the diameter of the solenoid. Substituting the given values, we get:

l = π * (3.60 x 10⁻² m)² / 4

= 1.016 x 10⁻³ m/turn

The total length of wire in the solenoid is then:

L = n × l

= 358.8 turns/m × 1.016 x 10⁻³ m/turn

= 0.365 m

Therefore, the length of wire forming the solenoid is approximately 0.365 meters.

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Find the image distance and magnification of the mirror in the sample problem when the object distances are 10.0 cm and 5.00 cm. Are the images real or virtual? Are the images inverted or upright? Draw a ray diagram for each case to confirm your results

Answers

In a plane mirror, the image distance is equal to the object distance, the magnification is 1, the image is virtual, and it is upright.

What is the  distance and magnification of concave and convex mirrors?

For concave mirrors, the image distance and magnification depend on the location of the object relative to the focal point of the mirror. If the object is placed on the far side of the focal point, the image will be real, upside-down and decreased. If the object is placed between the focal point and the mirror, the image will be virtual, upright and amplified. If the object is placed at the focal point, there will be no image.

For convex mirrors, the image distance and magnification are always negative, indicating that the image is virtual, upright and diminished, regardless of the location of the object.

For a plane mirror for an object distance of 10.0 cm, the image distance is also 10.0 cm, and the magnification is 1. For an object distance of 5.00 cm, the image distance is also 5.00 cm, and the magnification is 1. The images in both cases are virtual and upright.

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4) Given the work-energy relationship (W=ΔKE + ΔPE),what would be the mechanical power output while running at aconstant speed over level ground? Why?

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When running at a constant speed over level ground, the mechanical power output can be determined using the work-energy relationship and the concept of power.

In this scenario, the change in kinetic energy (ΔKE) and potential energy (ΔPE) are both zero, as the speed and elevation remain constant. Therefore, the work done (W) is also zero.

Power is the rate at which work is done, and can be calculated using the formula P = W/t, where P is power, W is work, and t is time. Since the work done (W) is zero in this case, the mechanical power output while running at a constant speed over level ground is also zero.

This is because there is no net energy being converted to increase or decrease the runner's kinetic or potential energy.

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A light bulb produces 28 W of power, emitted uniformly in all directions. Find the average intensity at the following.(a) at a distance of 3.00 m from the bulb.mW/m2(b) at a distance of 47.4 m from the bulb.mW/m2

Answers

(a) The average intensity of the light bulb at a distance of 3.00 m is approximately 0.98 [tex]mW/m^2[/tex]. (b) average intensity of the light bulb at a distance of 47.4 m is approximately 0.0039 [tex]mW/m^2[/tex].

To find the average intensity of the light bulb at a distance of 3.00 m, we can use the formula: [tex]I = P/4πr^2[/tex] where I is the intensity in watts per square meter, P is the power of the bulb in watts, and r is the distance from the bulb in meters.

Substituting the given values, we get: [tex]I = 28/4π(3.00)^2[/tex] I ≈ [tex]0.98 mW/m^2[/tex]Therefore, the average intensity of the light bulb at a distance of 3.00 m is approximately 0.98[tex]mW/m^2.[/tex]

Similarly, to find the average intensity of the light bulb at a distance of 47.4 m, we can use the same formula:[tex]I = P/4πr^2[/tex] Substituting the given values, we get:[tex]I = 28/4π(47.4)^2 I ≈ 0.0039 mW/m^2[/tex].

Therefore, the average intensity of the light bulb at a distance of 47.4 m is approximately 0.0039 [tex]mW/m^2[/tex].

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a very small, isolated sphere with charge q exists in an empty region of space. a second very small sphere is moved from far away to a short distance from the first sphere question the second sphere has a charge of 2.0 x 10-9 c. as it is moved closer to the first sphere at a constant speed, the second sphere passes through the circular equipotential lines due to the first sphere. two of these lines are separated by a distance of 0.020 m and have potentials of 100 v and 150 v. what is the magnitude of the average force needed to move the second sphere between the two equipotential lines? responses

Answers

The magnitude of the average force needed to move the second sphere between the two equipotential lines is 5.0 x 10-6 N.

In this scenario, we have two small spheres, one with a charge of q and the other with a charge of 2.0 x 10-9 C. The second sphere is moved from far away to a short distance from the first sphere.

As it is moved closer to the first sphere at a constant speed, it passes through two equipotential lines that are separated by a distance of 0.020 m and have potentials of 100 V and 150 V.

Equipotential lines are lines that represent points in space that have the same potential. Since the second sphere passes through two equipotential lines, it means that its potential is changing. This change in potential is due to the electric field created by the first sphere.

The magnitude of the average force needed to move the second sphere between the two equipotential lines can be determined using the formula F = qE, where F is the force, q is the charge of the second sphere, and E is the electric field.

The electric field is related to the potential difference between the two equipotential lines by the formula E = ΔV / d, where ΔV is the potential difference and d is the distance between the equipotential lines.

Therefore, we can calculate the electric field as:

E = (150 V - 100 V) / 0.020 m = 2500 V/m

Substituting this value of E and the charge of the second sphere into the formula for the force, we get:

F = (2.0 x 10-9 C) x (2500 V/m) = 5.0 x 10-6 N

Therefore, the magnitude of the average force needed to move the second sphere between the two equipotential lines is 5.0 x 10-6 N.

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A pressurized tank of gas has a volume of 3m3 and has hydrogen gas to fill weather balloons. The temperature is 27C(300K) at 30atm. The balloon is filled at 1atm and the temperature is -20C(253K) in the balloon gas. What is the volume of the balloon?

Answers

The volume of the balloon filled with hydrogen gas at -20C and 1atm can be calculated as 12.52m³.

The pressure and temperature of the hydrogen gas in the tank can be used to determine its initial volume using the ideal gas law: PV = nRT.

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

Using the given values, the number of moles of hydrogen in the tank can be calculated as:

n = PV/RT = (30 atm * 3m^3) / (8.31 J/mol*K * 300 K) = 11.45 mol

When the gas is released into the balloon, its pressure and temperature change to 1 atm and -20C, respectively. The final volume of the gas can be calculated using the same formula:

V = nRT/P = (11.45 mol * 8.31 J/mol*K * 253 K) / 1 atm = 12.52 m^3

Therefore, the volume of the balloon filled with hydrogen gas at -20C and 1atm is 12.52m3.

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Three identical balls are thrown from the top of a building, all with the same initial speed. as shown in the figure, the first ball is thrown horizontally, second above horizontal level, and third at an angle below the horizontal. Neglecting air resistance, rank the speeds of the balls at the instant each hits the ground.

Answers

The ranking of the speeds of the balls at the instant each hits the ground is third ball (thrown below horizontal level) > First ball (thrown horizontally) > Second ball (thrown above horizontal level).

Which ball will hit the ground faster?

Let’s consider the horizontal components of initial speed for each ball. The first ball is thrown horizontally, so it has an initial horizontal speed of zero. The second ball is thrown above the horizontal level, so it has a positive initial horizontal speed. The third ball is thrown below the horizontal level, so it has a negative initial horizontal speed.

Since there is no air resistance, the only force acting on the balls during their flight is the force of gravity. Therefore, all three balls will experience free fall motion. In free fall, the vertical speed of the ball will increase as it falls towards the ground. However, the horizontal speed of the ball will remain constant, since there is no force acting in the horizontal direction. Since the time of flight is the same for all three balls, the ball with the highest vertical speed at impact will also have the highest overall speed at impact. Therefore, the ranking of the speeds of the balls at the instant each hits the ground is as follows:

Third ball (thrown below horizontal level) - This ball has a negative initial horizontal speed, but it falls vertically faster than the other two balls, giving it the highest overall speed at impact.First ball (thrown horizontally) - This ball has a zero initial horizontal speed, so it falls vertically at the same rate as the second ball. However, it has a lower overall speed at impact since it has no horizontal component of velocity.Second ball (thrown above horizontal level) - This ball has a positive initial horizontal speed, but it falls vertically slower than the other two balls, giving it the lowest overall speed at impact.

Since all three balls are thrown with the same initial speed, they will all have the same vertical component of initial speed when they are released from the top of the building. Therefore, all three balls will have the same time of flight in the absence of air resistance.

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A chicken is taken out of the freezer (0C) and placed on a table in a 23C room. Forty-five minutes later the temperature is 10C. It warms according to Newton's Law. How long does it take before the temperature reaches 20C?

Answers

It will take about 4.62 hours for the chicken to reach 20C. The chicken (Gallus gallus domesticus) is a domesticated bird that is raised worldwide for its meat, eggs, and feathers.

According to Newton's Law of Cooling, the rate at which an object's temperature changes is proportional to the difference between its temperature and the surrounding temperature. In this case, the chicken's initial temperature is 0C and the room temperature is 23C, so the temperature difference is 23C. After 45 minutes, the temperature drops to 10C, which means it has cooled down by 13C.
To find out how long it will take for the temperature to reach 20C, we can use the formula:
T(t) = T_s + (T_i - T_s) * e^(-kt)
where:
- T(t) is the temperature at time t
- T_i is the initial temperature
- T_s is the surrounding temperature
- k is a constant that depends on the material and surface area of the object
- e is the mathematical constant e, approximately 2.71828
We know that T_i = 10C and T_s = 23C. We can also solve for k using the fact that the temperature dropped by 13C in 45 minutes:
13 = (0 - 23) * e^(-k * 45)
-0.565 = -k * 45
k = 0.0125556
Now we can solve for the time it takes for the temperature to reach 20C:
20 = 23 + (10 - 23) * e^(-0.0125556 * t)
-3 = -13 * e^(-0.0125556 * t)
ln(0.230769) = -0.0125556 * t
t = 277.22 minutes or approximately 4.62 hours

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a particle with charge q = –1 c is moving in the positive z-direction at 5 m/s. the magnetic field at its position is B = (3 i- 4 j)T what is the magnetic force on the particle?A. (20ỉ +15j) N B. (20î–153) N C. (-20i +15j) N D.(-20i -15j) N E. none of these

Answers

The magnetic force on the negatively charged particle moving in the positive z-direction with velocity 5 m/s in a magnetic field of (3 i- 4 j) T is (-20i -15j) N.

How to find magnetic force on the particle?

The magnetic force on a particle with charge q moving at velocity v in a magnetic field B is given by the equation F = q(v × B), where × represents the vector cross product.

In this case, the particle has a charge of q = -1 C and is moving in the positive z-direction at 5 m/s, so its velocity is given by v = (0, 0, 5) m/s.

The magnetic field at its position is B = (3, -4, 0) T.

Taking the vector cross product of v and B, we get:

v × B = (5, 0, 0) × (3, -4, 0) = (0, 0, -20)

So the magnetic force on the particle is given by:

F = q(v × B) = -1 C × (0, 0, -20) N = (0, 0, 20) N

Therefore, the correct answer is (D) (-20i -15j) N.

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You are told that a basketball player spins the ball with an angular acceleration of 100 rad/s2 . (a) What is the ball’s final angular velocity if the ball starts from rest and the acceleration lasts 2.00 s? (b) What is unreasonable about the result? (c) Which premises are unreasonable or inconsistent?

Answers

a) The ball's final angular velocity is 200 rad/s. b) The result is unreasonable because it implies that the ball is spinning faster than the speed of light.

What is angular velocity?

Angular velocity is a measure of rotational or circular motion that describes the angular speed of an object or particle in radians per second. It is the rate of change of the angular position of an object over a period of time and is usually represented by the symbol ω (omega). Angular velocity is related to linear velocity, which is the speed of a particle in a straight line. The magnitude of the angular velocity is the angular speed, and the direction of the angular velocity vector is perpendicular to the plane of rotation.

c) The premise that a basketball player can spin a ball with an angular acceleration of 100 rad/s² is unreasonable or inconsistent as it is physically impossible for a basketball player to spin a ball that fast.

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If a force of 20 N is applied to move an object 15 meters, how much work was done?

Answers

Answer:

Work = 300 J

Explanation:

[tex]W = Force*distance\\W = 20*15\\W = 300 J[/tex]

Calculate the height that 100J of work could raise a 2kg cat. (g=10N/kg)

Answers

100J of work could raise a 2kg cat to a height of 5 meters.

The potential energy gained by lifting an object of mass m to a height h is given by the formula:

PE = mgh

where PE is the potential energy in joules (J), m is the mass of the object in kilograms (kg), g is the acceleration due to gravity in meters per second squared [tex](m/s^2)[/tex], and h is the height in meters (m).

Rearranging the formula, we get:

h = PE / (mg)

Plugging in the given values, we get:

h = 100 J / (2 kg * 10 N/kg) = 5 meters

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What is the wavelength of a wave with a speed of 24 m/s and a period of 0.5 s?

Given:
Unknown:
Formula:
Solution:
Answer:

Answers

The wavelength of the wave is 12 meters.

What is the wavelength of the wave?

Wavelength is simply the distance over which the shapes of waves are repeated. It is the spatial period of a periodic wave.

From the wavelength, frequency and speed relation,

λ = v/f

Where λ is wavelength, v is velocity/speed and f is frequency.

Given the period (T) as 0.5s of the wave instead of its frequency.

The frequency (f) can be calculated from the period using the formula:

f = 1/T

f = 1/0.5

f = 2 Hz

Substituting this value of f in the above formula, we get:

λ = v/f

λ = 24 / 2

λ =  12 m

Therefore, the wavelength is 12 meters.

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Three of the common legumes are:


spinach
carrots
peanuts
clover
beans
potatoes

Answers

Answer:

peanuts

Beans

Clover

Explanation:

Spinach, carrots, and potatoes are not legumes but rather vegetables.

Also I’m in Culinary 1. Attached pic of from my class.

Determine the minimum force P to prevent a 30kg rod AB from sliding on a wall. The contact surface at B is smooth, whereas the coefficient of static friction between the rod and the wall at A is Us=0.2. The rod is diognal on the wall from bottom left (B), with the force P applied at B towards the right, to top right (A). It is 4 m across and 3 m up. Making the rod 5 m long.

Answers

A minimum force of 249.84 N is required to prevent the 30 kg rod AB from sliding on the wall.

To prevent the rod AB from sliding on the wall, the force P must be greater than or equal to the maximum force of static friction at point A.

The maximum force of static friction at point A can be calculated using the formula:

Fmax = Us * N

where Us is the coefficient of static friction between the rod and the wall at A, and N is the normal force acting on the rod perpendicular to the wall.

Since the rod is diagonal on the wall, the normal force N can be resolved into its components as follows:

N = m * g * cos(theta)

where m is the mass of the rod, g is the acceleration due to gravity, and theta is the angle between the rod and the horizontal.

Substituting the given values, we get:

N = 30 kg × 9.81 m/s² × cos(45°) = 206.53 N

Now, the maximum force of static friction at point A can be calculated as:

Fmax = Us ×N = 0.2 * 206.53 N = 41.31 N

To prevent the rod AB from sliding on the wall, the force P applied at B towards the right must be greater than or equal to 41.31 N.

We can resolve the weight of the rod into its components as follows:

W = mg = 30 kg ×9.81 m/s² = 294.3 N

The component of weight acting perpendicular to the wall is:

Wperpendicular = W sinθ= 294.3 N ×sin(45°) = 208.53 N

Therefore, the minimum force P required to prevent the rod from sliding on the wall is:

P = Wperpendicular + Fmax = 208.53 N + 41.31 N = 249.84 N

Therefore, a minimum force of 249.84 N would be required to prevent the 30 kg rod AB from sliding on the wall.

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coil has an area of .196 m^2 and carries a current of 7.18 a around it. this results in a magnetic moment of 2.28*10^3 a m^2. how many turns of wire wrap around this coil

Answers

Coil has an area of .196 m² and carries a current of 7.18 a around it. this results in a magnetic moment of 2.28×10³ there are approximately 64.6 turns of wire that wrap around this coil.

To find the number of turns of wire that wrap around the coil, we can use the formula for magnetic moment:
Magnetic moment = current ×area ×number of turns
We are given the current and area of the coil, as well as the magnetic moment. So we can rearrange the formula to solve for the number of turns:
Number of turns = magnetic moment / (current ×area)
Plugging in the given values, we get:
Number of turns = (2.28×10³ a m²) / (7.18 a ×0.196 m²)
Number of turns = 64.6
Therefore, there are approximately 64.6 turns of wire that wrap around this coil.

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. at what positions is the speed of a simple harmonic oscillator half its maximum? that is, what values of / give =±max/2, where is the amplitude of the motion?

Answers

The speed of a simple harmonic oscillator is given by the equation v = ±Aω√(1-(x/A)^2), where A is the amplitude, ω is the angular frequency, and x is the displacement from the equilibrium position. To find the positions where the speed is half its maximum, we set v = ±(1/2)Aω and solve for x.

±(1/2)Aω = ±Aω√(1-(x/A)^2)

Squaring both sides, we get:

(1/4)A^2ω^2 = A^2ω^2(1-(x/A)^2)

Simplifying, we get:

1/4 = 1-(x/A)^2

(x/A)^2 = 3/4

x = ±(√3/2)A

Therefore, the positions where the speed of a simple harmonic oscillator is half its maximum are x = ±(√3/2)A.

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What is the maximum electric field strength in an electromagnetic wave that has a maximum magnetic field strength of 5.00x10-4 T? O 1.67 pV/m 900 GV/m O 6.67 V/m O 150 kV/m

Answers

In an electromagnetic field with a max magnetic field magnitude of 5.00x10-4 T, the maximum strength of the electric field is 1.67 pV/m.

Where can I find electromagnetic?

Electromagnetic forces exist between any two cosmic rays, causing attraction between particles of opposite charges or repulsion between particles of the same charge, whereas magnetism is a contact that occurs only between energetic ions in relative motion.

Who created the electromagnetic field?

Michael Provides proof that the assessment 22 September 1791 – 25 August 1867 is best remembered for the discovery of magnetic flux, contributions to electromagnetics and electrochemistry, or for being the person who introduced the concept of field in quantum mechanics to describe electric force.

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In an electromagnetic field with a max magnetic field magnitude of 5.00x10-4 T, the maximum strength of the electric field is 1.67 pV/m.

Where can I find electromagnetic?

Electromagnetic forces exist between any two cosmic rays, causing attraction between particles of opposite charges or repulsion between particles of the same charge, whereas magnetism is a contact that occurs only between energetic ions in relative motion.

Who created the electromagnetic field?

Michael Provides proof that the assessment 22 September 1791 – 25 August 1867 is best remembered for the discovery of magnetic flux, contributions to electromagnetics and electrochemistry, or for being the person who introduced the concept of field in quantum mechanics to describe electric force.

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a spring stretches 2.1 cm when a 6 g object is hung from it. the object is replaced with a block of mass 14 g. Calculate the period of motion.

Answers

Answer:

F = M g = - K x

K = .006 kg * 9.80 m/s^2 / .021 m = 2.8 N / m      force constant of spring

ω = (K / M)^1/2 = (2.8 / .014)^1/2 = 14.1 / sec    angular frequency

ω = 2 π f = 2 π / P      where P is period of oscillation

P = 2 π  / ω = 2 * 3.14 / 14.1 = .446 sec

two long, parallel wires are separated by 1.99 cm and carry currents of 2.17 a. Find the magnitude of the magnetic force that acts on a 3.17-m length of either wire.

Answers

The magnitude of the magnetic force that acts on a 3.17 m length of either wire of two long parallel wires that are separated by 1.99 cm and carrying currents of 2.17 A is 1.50 × 10⁻⁴ N.

To find the magnitude of the magnetic force acting on a 3.17-meter length of either wire carrying currents of 2.17 A and separated by 1.99 cm, follow these steps:

1. First, convert the separation distance between the two parallel wires to meters. 1.99 cm = 0.0199 m.

2. Using the formula for the magnetic force between two parallel wires:

[tex]F = \frac{(\mu _o I_1  I_2  L)} { (2  \pi  d)}[/tex]

where F is the magnetic force, μ₀ is the permeability of free space (4π × 10⁻⁷ Tm/A), I₁ and I₂ are the currents in the wires, L is the length of the wire, and d is the distance between the wires.

3. Plug the given values into the formula:

[tex]F = \frac{((4\pi  \times 10^{-7} \ Tm/A) \times 2.17 \ A \times 2.17 \ A \times 3.17 \ m)}{ 2 \times \pi \times 0.0199 \ m)}[/tex].

4. Simplify and calculate the magnetic force: F = 1.50 × 10⁻⁴ N.

Therefore, the magnitude of the magnetic force that acts on a 3.17-m length of either parallel wire is 1.50 × 10⁻⁴ N.

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A moon in another galaxy from our own has the same gravity as Earth. a. Determine the radius of the moon is it has a tangential velocity of 400,000 m/s b. Determine the mass of the moon if its orbital period (T-time to complete one rotation) is 24 hours.

Answers

The moon has a radius of 2,040,816 meters and a mass of 5.61 x 10²⁴ kg.

To find the radius of the moon (a), we can use the formula for centripetal acceleration: a = v² / r, where v is tangential velocity and r is radius.

Since the moon's gravity is the same as Earth's, we can use Earth's gravitational acceleration (9.81 m/s²) for a. We rearrange the formula to solve for r: r = v² / a. Plug in the values (400,000 m/s)² / 9.81 m/s², and we get r = 2,040,816 meters.

To find the mass of the moon (b), we can use the formula for orbital period: T = 2π√(r³ / GM), where T is orbital period, G is the gravitational constant (6.674 x 10⁻¹¹ N(m/kg)²), and M is the mass of the moon.

Rearrange the formula to solve for M: M = r³ / (T² / (4π²)G). Plug in the values 2,040,816³ / (24 * 3600)² / (4π²)(6.674 x 10⁻¹¹), and we get M = 5.61 x 10²⁴ kg.

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what is the gradient of a river, in cm/m, if the change in elevation is 45 ft and the length is 32.3 mi?

Answers

The gradient of a river, in cm/m, if the change in elevation is 45 ft and the length is 32.3 mi is 0.000263 cm/m.

To calculate the gradient of a river, we need to convert the given measurements into consistent units. Let's first convert 45 feet to meters:

1 ft = 0.3048 m

45 ft = 45 x 0.3048 = 13.716 m

Similarly, we can convert 32.3 miles to meters:

1 mile = 1609.34 m

32.3 miles = 32.3 x 1609.34 = 52,026.082 m

Now we can calculate the gradient as:

gradient = change in elevation/distance

gradient = 13.716 m / 52,026.082 m

gradient = 0.000263 cm/m (rounded to three decimal places)

Therefore, the gradient of the river is 0.000263 cm/m.

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The distance between the sun and the earth is 1.5 * 10^11. Use this information to calculate the mass of the sun.

I understand you're supposed to set the force of gravity equal to your centripetal force but why can't I use g=G(M/r^2) and solve for M, plugging in 9.81 as g, 6.67*10^-11 as G, and 1.5 * 10^11 as r?

Answers

Answer:

47288483 miles

Explanation:

It was revealed to me in a dream

a hollow copper wire with an inner diameter of 1.2 mmmm and an outer diameter of 2.5 mmmm carries a current of 8.0 aa. a. what is the current density in the wire?

Answers

The current density in the hollow copper wire is approximately 2.09 × 10⁶ A/m².

To calculate the current density in the hollow copper wire, we'll first need to determine the cross-sectional area of the wire. Given the inner diameter of 1.2 mm and outer diameter of 2.5 mm, we can find the area as follows:
1. Convert diameters to radii: inner radius (r1) = 0.6 mm, outer radius (r2) = 1.25 mm
2. Convert radii to meters: r1 = 0.0006 m, r2 = 0.00125 m
3. Calculate the cross-sectional area: Area = π(r2² - r1²)
Area = π((0.00125)² - (0.0006)²) = 3.82116 × 10⁻⁶ m²
Now we can find the current density (J) using the formula J = I/Area, where I is the current (8.0 A) and Area is the cross-sectional area calculated above.
J = 8.0 A / 3.82116 × 10⁻⁶ m² ≈ 2.09 × 10⁶ A/m²

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