A satellite of mass 20 kg is in orbit around the Earth. At the height of the satellite’s orbit, the gravitational field strength is one quarter of its strength on the surface of the Earth. The gravitational field strength on the surface of the Earth is 10 N/ kg. What is the weight of the satellite as it orbits the Earth?

Answers

Answer 1

The weight of a satellite of mass 20 kg in orbit around the Earth, where the gravitational field strength is one-quarter of its value on the surface of the Earth, is 50 N.

The weight of the satellite is given by the formula W = mg, where m is the mass of the satellite and g is the gravitational field strength at its position.

Since the gravitational field strength at the height of the satellite’s orbit is one quarter of its value on the surface of the Earth, we have

g = (1/4) x 10 N/kg = 2.5 N/kg.

Substituting the given values, we get W = 20 kg x 2.5 N/kg = 50 N.

The weight of the satellite is the gravitational force that acts on it due to the Earth’s gravitational field. This force depends on the mass of the satellite and the gravitational field strength at its position. The gravitational field strength varies with the distance from the Earth’s center, and it decreases as the distance increases.

The weight of the satellite is less than its mass because it is in freefall around the Earth, and it experiences a centripetal force due to the gravitational attraction of the Earth. This centripetal force exactly balances the gravitational force, so the satellite remains in orbit.

In summary, the weight of a satellite of mass 20 kg in orbit around the Earth, where the gravitational field strength is one-quarter of its value on the surface of the Earth, is 50 N.

The weight of the satellite depends on its mass and the gravitational field strength at its position, and it is less than its mass because of the centripetal force that balances the gravitational force and keeps the satellite in orbit.

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Related Questions

Suppose the book-printing industry is competitive and begins in a long-run equilibrium. Then hi-tech printing company invents a new process that sharply reduces the cost of printing books.

Answers

The new process will cause the demand for book printing services to increase, and this will cause the price of book printing services to fall.

The long-run equilibrium will shift to a new equilibrium, where the new cost structure will be reflected in the price of book printing services. The new process will result in lower prices and higher demand for book printing services, leading to an increase in the number of firms in the book printing industry, as well as an increase in the size of the market.

The cost savings due to the new process will be passed on to consumers, resulting in lower prices for books. This will benefit both the book printing companies as well as the consumers.

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Your firm has been hired to design a system that allows airplane pilots to make instrument landings in rain or fog. You've decided to place two radio transmitters 50 m apart on either side of the runway. These two transmitters will broadcast the same frequency, but 180 degrees out of phase with each other. This will cause a nodal line to extend straight off the end of the runway. As long as the airplane's receiver is silent, the pilot knows she's directly in line with the runway. If she drifts to one side or the other, the radio will pick up a signal and sound a warning beep. To have sufficient accuracy, the first intensity maxima need to be 58 m on either side of the nodal line at a distance of 5. 0 km

Answers

The frequency (f) using the speed of light (c ≈ 3 x 10^8 m/s): 4.67 x 10^8 Hz for the transmitters.

To design a system that allows airplane pilots to make instrument landings in rain or fog using two radio transmitters 44 m apart on either side of the runway, you need to determine the frequency for the transmitters. To have sufficient accuracy, the first intensity maxima should be 70 m on either side of the nodal line at a distance of 4.8 km.

We can use the formula for constructive interference to find the frequency:

sin(θ) = mλ / d

Here, θ is the angle between the nodal line and the location of the first intensity maxima, m is the order of the maxima (m=1 for the first maxima), λ is the wavelength, and d is the distance between the transmitters (44 m).

First, find the angle θ using the tangent function:

tan(θ) = 70 m / 4.8 km = 70 m / 4800 m
θ = arctan(70/4800) ≈ 0.0146 radians

Now, use the sin(θ) formula with m=1 and d=44 m:

sin(0.0146) = 1 * λ / 44 m
λ ≈ 0.0146 * 44 m ≈ 0.6424 m

Now that we have the wavelength, we can find the frequency (f) using the speed of light (c ≈ 3 x 10^8 m/s):

f = c / λ
f ≈ (3 x 10^8 m/s) / 0.6424 m ≈ 4.67 x 10^8 Hz

You should specify a frequency of approximately 4.67 x 10^8 Hz for the transmitters.

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Complete question:

Your firm has been hired to design a system that allows airplane pilots to make instrument landings in rain or fog. You've decided to place two radio transmitters 44 {\rm m} apart on either side of the runway. These two transmitters will broadcast the same frequency, but out of phase with each other. This will cause a nodal line to extend straight off the end of the runway (see Figure 21.30b). As long as the airplane's receiver is silent, the pilot knows she's directly in line with the runway. If she drifts to one side or the other, the radio will pick up a signal and sound a warning beep. To have sufficient accuracy, the first intensity maxima need to be 70 {\rm m} on either side of the nodal line at a distance of 4.8 {\rm km}.

What frequency should you specify for the transmitters?

A performing dolphin speeds through the water and hits a rubber ball originally at rest. describe what happens to the velocities of the dolphin and the ball.

Answers

According to the law of conservation of momentum, the total momentum of the system of the dolphin and the ball is conserved. Initially, the dolphin and the ball have a total momentum of zero as the ball is at rest.

When the dolphin hits the ball, it exerts a force on it, causing it to move in the direction of the force.

This creates a net momentum in the direction of the ball's motion, which is equal in magnitude and opposite in direction to the momentum of the dolphin.

Therefore, the dolphin's momentum decreases while the ball's momentum increases.

The dolphin continues moving forward but with a reduced velocity, while the ball moves away from the dolphin with a velocity that depends on the mass of the ball and the force applied by the dolphin.

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Calculate the magnitude of the electrostatic force between a + 8. 0μC charged particle and a + 9. 0μC charged particle separated by 0. 5 cm.



(Hint: μ is 10-6 and c is 10-2)

Answers

The magnitude of the electrostatic force between the two charged particles is 2.59 * 10^4 N.

To calculate the magnitude of the electrostatic force between the two charged particles, we can use Coulomb's law which states that the magnitude of the electrostatic force between two point charges is directly proportional to the product of their charges and inversely proportional to the square of the distance between them.

So, the formula to calculate the electrostatic force between two charged particles is:

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

where F is the electrostatic force, k is Coulomb's constant (9 * 10^9 N*m^2/C^2), q1 and q2 are the charges of the two particles and r is the distance between them.

In this case, q1 = +8.0 μC = +8.0 * 10^-6 C, q2 = +9.0 μC = +9.0 * 10^-6 C, and r = 0.5 cm = 0.5 * 10^-2 m.

Substituting these values into the formula, we get:

F = (9 * 10^9 * 8.0 * 10^-6 * 9.0 * 10^-6) / (0.5 * 10^-2)^2
F = 2.59 * 10^4 N

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a light sensor is based on a photodiode that requires a minimum photon energy of 1.65 ev to create mobile electrons. part a what is the longest wavelength of electromagnetic radiation that the sensor can detect?

Answers

The light sensor based on a photodiode with a minimum photon energy of 1.65 eV can detect electromagnetic radiation with a maximum wavelength of approximately 2.51 x 10⁻⁷ meters, corresponding to the infrared region of the spectrum.

To determine the longest wavelength of electromagnetic radiation that the sensor can detect, we need to convert the minimum photon energy of 1.65 eV into joules. Once we have the energy value in joules, we can use the equation that relates energy (E) and wavelength (λ):

E = hc/λ

where:
E is the energy of the photon,
h is Planck's constant (6.626 x 10⁻³⁴ J·s),
c is the speed of light in a vacuum (3 x 10⁸ m/s),
λ is the wavelength of the photon.

First, let's convert the minimum photon energy of 1.65 eV to joules. The conversion factor is 1 eV = 1.6 x 10⁻¹⁹ J.

Energy (E) = 1.65 eV * (1.6 x 10⁻¹⁹ J/eV)
= 2.64 x 10⁻¹⁹ J

Now, we can rearrange the equation to solve for the wavelength (λ):

λ = hc/E

Substituting the known values:

λ = (6.626 x 10⁻³⁴ J·s * 3 x 10^8 m/s) / (2.64 x 10⁻¹⁹ J)
≈ 2.51 x 10⁻⁷ m

Therefore, the longest wavelength of electromagnetic radiation that the sensor can detect is approximately 2.51 x 10⁻⁷ meters, which corresponds to the infrared region of the electromagnetic spectrum.

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26.0 g of mercury is heated from 28°c to 175°c, and absorbs 545 joules of heat in the process. calculate the specific heat capacity of mercury.

Answers

The specific heat capacity of mercury is approximately 0.142 J/g°C.

To calculate the specific heat capacity of mercury, we can use the formula:

Q = mcΔT

where Q is the heat absorbed (545 J), m is the mass of mercury (26.0 g), c is the specific heat capacity, and ΔT is the change in temperature (175°C - 28°C).

First, let's find ΔT:

ΔT = 175°C - 28°C = 147°C

Now we can rearrange the formula to solve for c:

c = Q / (mΔT)

Plugging in the values:

c = 545 J / (26.0 g × 147°C) = 545 J / 3822 g°C

c ≈ 0.142 J/g°C

So, the specific heat capacity of mercury is approximately 0.142 J/g°C.

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A racehorse gallops at a speed of 65 km / h. how long will it take to reach the finish line in a 1,500 m race?

Answers

It will take the racehorse approximately 83 seconds (or 1 minute and 23 seconds) to reach the finish line in a 1,500 m race at a speed of 65 km/h.

To find out how long it will take the racehorse to reach the finish line, we need to use the formula:

time = distance ÷ speed

where:

distance = 1,500 m

speed = 65 km/h = (65 × 1,000) m/h = 65,000 m/h

Now, we need to convert the speed from meters per hour to meters per second, since the distance is given in meters. We can do this by dividing the speed by 3,600 (the number of seconds in an hour):

speed = 65,000 m/h ÷ 3,600 s/h = 18.06 m/s (rounded to two decimal places)

Substituting the values into the formula, we get:

time = 1,500 m ÷ 18.06 m/s = 83.03 seconds (rounded to two decimal places)

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A small 350 gram ball on the end of a thin, light rod is rotated horizontal circle of radius 1. 2 m. Calculate a. The moment of inertia of the ball about the center of the circle and b. The torque needed to keep the ball rotating at constant angular velocity if air resistance exerts a force of 0. 020 N on the ball. Ignore air resistance on the rod and it's moment of inertia. ​

Answers

The moment of inertia of a small ball on the end of a thin rod rotating in a horizontal circle of radius 1.2 m is 0.504 kg m². To keep the ball rotating at a constant angular velocity in the presence of air resistance, a torque of 0.024 Nm is needed.

a. The moment of inertia of the ball about the center of the circle is given by I = mr², where m is the mass of the ball and r is the radius of the circle. Substituting the given values, we get I = 0.35 kg x (1.2 m)² = 0.504 kg m².

b. The torque needed to keep the ball rotating at constant angular velocity is given by τ = Iα, where τ is the torque, I is the moment of inertia, and α is the angular acceleration. Since the ball is rotating at a constant angular velocity, α = 0, and the torque needed is zero.

However, air resistance exerts a force on the ball, which tends to slow it down. To counteract this force, an external torque must be applied in the opposite direction.

The magnitude of this torque is given by τ = Fr, where F is the force of air resistance and r is the radius of the circle. Substituting the given values, we get τ = 0.020 N x 1.2 m = 0.024 Nm.

In summary, the moment of inertia of a small ball on the end of a thin rod rotating in a horizontal circle of radius 1.2 m is 0.504 kg m². To keep the ball rotating at a constant angular velocity in the presence of air resistance, a torque of 0.024 Nm is needed.

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A loop of wire is in a magnetic field such that its axis is parallel with the field direction. Which of the following would result in an induced emf in the loop? choose all that apply.

Answers

All of the above scenarios would result in an induced emf in the loop of wire in a magnetic field with its axis parallel to the field direction.

According to Faraday's law of electromagnetic induction, an induced emf (electromotive force) is produced in a conductor when it is exposed to a changing magnetic field. Specifically, the induced emf is proportional to the rate of change of the magnetic flux passing through the conductor.

In the case of a loop of wire in a magnetic field with its axis parallel to the field direction, the induced emf depends on how the magnetic field changes with time or how the loop moves with respect to the magnetic field. Based on this, the following situations would result in an induced emf in the loop:

1. The magnetic field intensity changes with time: If the magnetic field intensity changes with time, the flux passing through the loop changes and an induced emf is produced in the loop.

2. The loop moves perpendicular to the magnetic field direction: If the loop moves in a direction perpendicular to the magnetic field direction, the magnetic flux passing through the loop changes and an induced emf is produced in the loop.

3. The loop rotates about its axis: If the loop rotates about its axis in the magnetic field, the magnetic flux passing through the loop changes and an induced emf is produced in the loop.

All of the above scenarios would result in an induced emf in the loop of wire in a magnetic field with its axis parallel to the field direction.

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A 200-kg machine is attached to the end of a cantilever beam of length L=

2. 5 m, elastic modulus E= 200x109 N/m2

, and area moment of inertia I =

1. 8x10–6 m4. Assuming the mass of the beam is small compared to the mass

of the machine, what is the stiffness of the beam?​

Answers

The cantilever beam has a stiffness of 2074.4 N/m, meaning it needs 2074.4 N of force to produce a unit of deflection. The beam's mass is assumed to be insignificant compared to the machine's mass, which is valid for calculating its stiffness.

The stiffness of a beam is defined as the amount of force required to produce a unit of deflection. In this case, we need to find the stiffness of the cantilever beam given the machine's mass, the beam's length, elastic modulus, and area moment of inertia.

To determine the stiffness, we can use the equation:

Stiffness (k) = [tex](3 \times E \times I) / L^3[/tex]

Where E is the elastic modulus, I is the area moment of inertia, and L is the length of the beam. Substituting the given values, we get:

[tex]k = (3 \times 200 \times 10^9 N/m^2 \times 1.8 \times 10^{-6} m^4) / (2.5 m)^3[/tex]

Simplifying this equation gives:

k = 2074.4 N/m

Therefore, the stiffness of the cantilever beam is 2074.4 N/m, which means that it requires a force of 2074.4 N to produce a unit of deflection. It is important to note that the mass of the beam was assumed to be negligible compared to the mass of the machine, which is a valid assumption for the calculation of the beam's stiffness.

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Laboratory worksheet

in this activity you will use the virtual laboratory to create an electromagnet to pick up paperclips. notice that there are many variables to test in this lab. there is a power supply, a core for the wire to wrap around, different types of wire, and different gauges or thicknesses of wire. the voltage can also be adjusted. for each trial, choose one variable to change.


pre-lab questions:


explain what it means when we say a substance is magnetic.

discuss the relationship between electric and magnetic fields.

what type of metals are known as ferromagnetic metals?

open the lab interactive and run a few trials changing the variables each time. decide which variable you want to change in order to make a strong electromagnet, and record it here. this will be your independent variable.

hypothesis


record your hypothesis as an "if, then" statement. (if the independent variable does this, then the dependent variable will do that. )


variables


list the independent (test variable), dependent (outcome variable), and controlled variables. be sure to change just one variable for each trial.


procedure


use the virtual laboratory to create an electromagnet, changing only your independent variable.

record the data and what each variable was set at for each trial.

record the number of paper clips the electromagnet picked up for each trial (this is the dependent variable and reflects the strength of the electromagnet).

repeat your trial three times. you should vary only the independent variable you chose.

data


record your data for each trial. be sure to change just one variable at time. this will allow you to see which variables will affect the number of paper clips collected.


trial size of wire gauge material of wire voltage number of winds resulting paper clips picked up

trial 1

trial 2

trial 3

post-lab questions


review your data. did your experiment support your hypothesis? explain your answer.

what role does voltage play in the formation or use of an electromagnet?

if you were able to keep the electromagnet that you created in your laboratory activity, what would be two possible uses for the electromagnet?

what is an advantage of using an electromagnet rather than a regular magnet?

Answers

A substance is considered magnetic if it generates a magnetic field or is attracted to a magnetic field.

The relationship between electric and magnetic fields is that when electric current flows through a wire, it creates a magnetic field around it. Ferromagnetic metals include iron, nickel, and cobalt.

For this lab activity, let's focus on the independent variable of wire gauge. The hypothesis can be: "If the wire gauge is decreased, then the electromagnet will pick up more paper clips."

Independent variable: Wire gauge
Dependent variable: Number of paper clips picked up
Controlled variables: Core material, wire material, voltage, number of wire turns

Follow the procedure in the virtual laboratory, altering only the wire gauge for each trial. Record the data in the table provided.

After completing the trials, analyze your data to see if it supports your hypothesis. Voltage plays a role in electromagnet formation by influencing the strength of the magnetic field generated around the wire. Higher voltage typically leads to stronger electromagnets.

Two possible uses for the electromagnet you created could be lifting metal objects in a recycling plant or sorting magnetic materials in manufacturing processes.

An advantage of using an electromagnet over a regular magnet is that the strength and direction of the magnetic field can be controlled by adjusting the current, whereas a regular magnet has a constant magnetic field.

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Coherent microwaves of wavelength 6.00 cm enter a tall, narrow window in a building otherwise essentially opaque to the microwaves. If the window is 39.0 cm wide, what is the distance from the central maximum to the first-order minimum along a wall 6.50 m from the window?1 cm

Answers

The distance from the central maximum to the first-order minimum along the wall is approximately 1.00 meter.

We can use the formula for the angular separation between the central maximum and the first-order minimum in a single-slit diffraction pattern:

θ = λ / a,

where θ is the angular separation, λ is the wavelength of the microwaves, and a is the width of the window. Given the wavelength λ = 6.00 cm and the window width a = 39.0 cm, we can find the angular separation:

θ = (6.00 cm) / (39.0 cm) = 0.1538 radians.

Now, let's find the distance y between the central maximum and the first-order minimum along a wall 6.50 m away from the window. We can use the formula:

y = L * tan(θ),

where L is the distance from the window to the wall. With L = 6.50 m and θ = 0.1538 radians, we have:

y = (6.50 m) * tan(0.1538 radians) ≈ 1.00 m.

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If you put more mass on a cart so it hovers closer to the track, what happens to the magnetic potential energy?

Answers

Answer:If you put more mass on a cart so it hovers closer to the track in a magnetic levitation system, the magnetic potential energy increases. This is because the force of the magnetic field on the cart is proportional to the distance between the cart and the track. As the cart moves closer to the track, the magnetic field strength increases, resulting in an increase in potential energy.

Explanation:

A student carries a 0. 5kg water balloon from the first floor to the fourth floor, a distance of 15m. If she drops it out the window, how much kinetic energy will it have when it reaches the first floor?

Answers

The water balloon will have 220.5 Joules of kinetic energy when it reaches the first floor.

To calculate the kinetic energy of the water balloon when it reaches the first floor, we need to consider the conservation of energy. As the balloon falls, potential energy is converted into kinetic energy.

The potential energy (PE) of an object at a certain height is given by the formula:

PE = m * g * h

Where m is the mass of the object, g is the acceleration due to gravity, and h is the height.

In this case, the height is the distance between the fourth and first floors, which is 15 meters.

The potential energy at the fourth floor is:

PE_initial = m * g * h_initial

The potential energy at the first floor is:

PE_final = m * g * h_final

Since energy is conserved, the potential energy lost by the balloon is converted into kinetic energy:

KE = PE_initial - PE_final

Substituting the given values:

m = 0.5 kg

g ≈ 9.8 m/s²

h_initial = 4 floors = 4 * 15 m = 60 m

h_final = 1 floor = 1 * 15 m = 15 m

PE_initial = 0.5 kg * 9.8 m/s² * 60 m

PE_final = 0.5 kg * 9.8 m/s² * 15 m

KE = PE_initial - PE_final

Now we can calculate the kinetic energy:

KE = (0.5 kg * 9.8 m/s² * 60 m) - (0.5 kg * 9.8 m/s² * 15 m)

Simplifying the expression:

KE = 0.5 kg * 9.8 m/s² * (60 m - 15 m)

KE = 0.5 kg * 9.8 m/s² * 45 m

KE = 220.5 Joules

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A 0. 050kg metal bolt is heated to an unknown initial temperature. It is then dropped into a calorimeter containing 0. 15kg of water with an initial temperature of 21C. The bolt and the water then reach a final temperature of 25C. If the metal has a specific heat capcity of 899J/kgxC, find the initial temperature of the metal

Answers

The initial temperature of the metal bolt was 29.8°C.

To find the initial temperature of the metal bolt, we can use the principle of conservation of energy, which states that the total energy of a closed system remains constant.

The energy lost by the metal bolt when it cools down to its final temperature is gained by the water in the calorimeter.

First, let's find the heat gained by the water in the calorimeter:

Qwater = mwater * cwater * ΔTwater

where mwater is the mass of water, cwater is the specific heat capacity of water (which is 4186 J/kg°C), and ΔTwater is the change in temperature of water (final temperature - initial temperature):

Qwater = 0.15 kg * 4186 J/kg°C * (25°C - 21°C)

Qwater = 2511.6 J

Next, let's find the heat lost by the metal bolt:

Qmetal = mm * cmetal * ΔTmetal

where mm is the mass of the metal bolt, cmetal is the specific heat capacity of the metal (which is given as 899 J/kg°C), and ΔTmetal is the change in temperature of the metal (initial temperature - final temperature):

Qmetal = 0.050 kg * 899 J/kg°C * (Ti - 25°C)

where Ti is the initial temperature of the metal bolt.

Since the system is closed, the heat lost by the metal bolt (Qmetal) is equal to the heat gained by the water (Qwater):

Qmetal = Qwater

0.050 kg * 899 J/kg°C * (Ti - 25°C) = 2511.6 J

Solving for Ti, we get:

Ti = (2511.6 J / (0.050 kg * 899 J/kg°C)) + 25°C

Ti = 29.8°C

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at steady-state, what is the frequency of (displacement) of the mass-spring-damper and will this frequency be in phase with the sinusoidal driving force? explain how you arrived at your answer

Answers

The frequency of displacement of a mass-spring-damper system under sinusoidal driving force is equal to the driving force frequency and in phase with it at steady state.

In a mass-spring-damper system driven by a sinusoidal force, the system will reach a steady-state where the amplitude of the displacement oscillations will remain constant. The frequency of this displacement will be equal to the frequency of the driving force.

Whether the frequency of displacement will be in phase with the driving force depends on the damping ratio of the system. If the damping ratio is zero (i.e. the system is undamped), the displacement frequency will be in phase with the driving force. However, if the system is damped, the displacement frequency will lag behind the driving force frequency.

This is because damping causes energy to be dissipated from the system, resulting in a reduction in the amplitude of the displacement oscillations. As a result, the displacement frequency will be slightly lower than the driving force frequency, and the displacement will lag behind the driving force. The amount of lag will depend on the damping ratio of the system.

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--The complete question is, In a mass-spring-damper system, a sinusoidal driving force is applied. At steady-state, what is the frequency of displacement of the system and will this frequency be in phase with the driving force? Provide an explanation for your answer--

A weightlifter lifts a 13.0-kg barbell from the ground and moves it a distance of 1.30 meters upwards. what is the work she does on the barbell? round
your answer to a whole number. hint mass x gravity is the weight of the barbell

Answers

The work done by the weightlifter on the barbell is 166 J.

The work done on an object is given by the equation W = Fd, where W is the work done, F is the force applied, and d is the displacement of the object. In this case, the weightlifter is applying a force to lift the barbell against the force of gravity.

The weight of the barbell can be calculated as W = mg, where m is the mass of the barbell and g is the acceleration due to gravity (approximately 9.8 [tex]m/s^{2}[/tex]).

Substituting the values given, we get: W = (13.0 kg)(9.8 [tex]m/s^{2}[/tex]) = 127.4 N

To find the work done, we need to multiply the force by the distance moved, so: W = (127.4 N)(1.30 m) = 165.6 J

Therefore, the work done by the weightlifter on the barbell is 166 J (rounded to the nearest whole number).

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20. An astronaut weighs 8.00 × 102

newtons on the
surface of Earth. What is the weight of the astronaut
6.37 × 106
meters above the surface of Earth?

Answers

At a height of 6.37 10⁶ meters above the Earth's surface, the astronaut's weight is 195.5 N.

How to determine weight of astronaut?

The weight of the astronaut changes as they move away from the surface of Earth due to the decrease in the gravitational force acting on them.

Use the formula:

F = Gm₁m₂/r²

where F = gravitational force,

G = gravitational constant,

m₁ = mass of the Earth,

m₂ = mass of the astronaut, and

r = distance between the center of the Earth and the astronaut.

Since the mass of the astronaut remains the same, use the formula to find the weight of the astronaut at the given distance.

First, calculate the distance from the center of the Earth to the astronaut:

r = radius of the Earth + height above the surface

r = 6,371,000 m + 6,370,000 m = 12,741,000 m

Calculate the gravitational force acting on the astronaut:

F = Gm₁m₂/r²

F = (6.6743 × 10⁻¹¹ N m²/kg²) x (5.972 × 10²⁴ kg) x (80 kg) / (12,741,000 m)²

F = 195.5 N

Therefore, the weight of the astronaut at a height of 6.37 × 10⁶meters above the surface of Earth is 195.5 N.

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Two ropes are attached to a tree, F₁=5.01+3.0/and, F₂=3.01+2.0f forces of and
are applied. The forces are coplanar (in the same plane). Find the direction of the net
force.

Answers

Final answer:

In physics, we use vector addition to calculate the net force direction when more than one force is applied. Given the separate x and y components of two forces, F₁ and F₂, we sum the components respectively to find the x and y components of the net force. The arctangent of the ratio Fy/Fₓ then gives the direction in degrees relative to the x-axis.

Explanation:

In physics, specifically in mechanics, you can calculate the net force direction when two forces, F₁ and F₂, are being applied by using vector addition. Vector addition can be visualized graphically using arrows or mathematically using components. In this case, since the forces are given in the form of components (x and y), let's handle it mathematically, the x-component of the net force (Fₓ) will be the sum of the x-components of F₁ and F₂. Similarly, the y-component of the net force (Fy) will be the sum of the y-components of F₁ and F₂. This gives us Fₓ = 5.01N + 3.01N and Fy = 3.0N + 2.0N. The direction of the net force can then be calculated using arctangent of the ratio Fy/Fₓ. This will give the direction in degrees relative to the x-axis.

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Please describe this graph

a. Explain the relationship between variables.
b. State if it is a linear or nonlinear graph.
c. Give an example of what this graph could be about.

Answers

Answers:

a. The relationship between the variables is directly proportional (i.e. the x axis is directly proportional to the y axis).

b. The graph is linear.

c. The graph could represent the cost of renting a boat; the longer you rent it, the higher the cost and vice versa.

a. The relationship between the variables is directly proportional (i.e. the x axis is directly proportional to the y axis).

b. The graph is linear.

c. The cost of hiring a boat could be represented by the graph; the longer you hire it, the more it will cost and vice versa.

what is a graph?

A graph is described as a diagram showing the relation between variable quantities, typically of two variables, each measured along one of a pair of axes at right angles.

The purpose of a graph is to present data that are too numerous or complicated to be described adequately in the text and in less space.

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14.Figure shows a magnetic field associated with a rectangular coil directed into the plane of the

paper.

(a) What would be the effect if the coil moves towards right? 1 mark

(b) Name the phenomenon responsible for the above observation. 1 mark

(c)(i) State the rule that is used to determine the direction of current produced in the phenomenon.

Answers

When a rectangular coil moves towards the right in a magnetic field directed would be: the generation of an electromotive force (EMF)

When a rectangular coil moves towards the right in a magnetic field directed into the plane of the paper:

(a) The effect of the coil moving towards the right would be the generation of an electromotive force (EMF) within the coil due to the changing magnetic field. This would result in the production of an electric current within the coil.

(b) The phenomenon responsible for this observation is called electromagnetic induction.

(c)The rule used to determine the direction of the current produced in electromagnetic induction is Fleming's Right Hand Rule. This rule states that if you extend your thumb, index finger, and middle finger of your right hand such that they are perpendicular to each other, then the thumb points in the direction of the motion of the conductor, the index finger points in the direction of the magnetic field, and the middle finger points in the direction of the induced current.

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complete question:

Figure shows a magnetic field associated with a rectangular coil directed into the plane of the paper.

(a) What would be the effect if the coil moves towards right? 1 mark

(b) Name the phenomenon responsible for the above observation. 1 mark

(c)( State the rule that is used to determine the direction of current produced in the phenomenon.

The half life of carbon 14 is about 5670 years. if 100g of c-14 were left to disintegrate, how much would be left after 22,680 years. Also I need the Fraction:
Percent: and the Mass:
someone give me the answer please and quick

Answers

The fraction of the substance remaining is 6.25%.

What is the amount left?

The amount of substance left is calculated as follows;

N = N₀(1/2)^(t/T)

where;

N₀ is the initial amount of the substanceN is the amount remaining after time t

T is the half-life of the substance,

we have;

N₀ = 100g,

T = 5670 years, and

t = 22680 years

N = 100 x (1/2)^(22680/5670)

N = 6.25 g

The fraction remaining is calculated as follows

fraction remaining = N/N₀

fraction remaining = 6.25/100

fraction remaining = 0.0625 or 6.25%

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A 12 V battery is connected across two parallel metal plates separated by 0.59 cm. Find the magnitude of the electric field.

Answers

The magnitude of the electric field between two parallel plates is given by:

E = V/d

where V is the potential difference between the plates and d is the distance between them.

In this case, V = 12 V and d = 0.59 cm = 0.0059 m. Substituting these values, we get:

E = 12 V / 0.0059 m

E = 2033.9 V/m

Therefore, the magnitude of the electric field is 2033.9 V/m.

The electrostatic force between two like ions which are separated by a distance of 0.5 nm is 3.7 nn. what is the magnitude of the charge on each ion?​

Answers

The magnitude of the charge on each ion is [tex]1.01 \times 10^{-18} C[/tex].

The electrostatic force between two like ions is given by Coulomb's law, which states that the force is directly proportional to the product of the charges on the ions and inversely proportional to the square of the distance between them. Therefore, we can use Coulomb's law to solve for the charge on each ion.

First, we need to convert the distance between the ions to meters, since Coulomb's law requires the distance to be expressed in SI units. 0.5 nm is equal to [tex]5 \times 10^{-10} m[/tex].

Next, we can plug the given values into Coulomb's law:

[tex]$F = k\frac{q_1q_2}{r^2}$[/tex]

where F is the electrostatic force, k is Coulomb's constant, [tex]q_1[/tex] and [tex]q_2[/tex] are the charges on the ions, and r is the distance between the ions.

Substituting the values we have:

[tex]$3.7 \times 10^{-9} \text{ N} = \frac{9 \times 10^9 \text{ Nm}^2/\text{C}^2 \cdot q^2}{(5 \times 10^{-10} \text{ m})^2}$[/tex]

Solving for q, we get:

[tex]$q = \pm 1.01 \times 10^{-18} \text{ C}$[/tex]

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A structural plate component of an engineering design must support 207 mpa in tension. If an aluminum alloy is used for this application, what is the largest internal flaw size that this material can support? assume the shape factor is 1 and that for aluminum kic = 25. 6 mpa√m and yield strength is 455 mpa

Answers

To determine the largest internal flaw size that an aluminum alloy can support when used as a structural plate component, we must consider the material's strength and fracture toughness. The fracture toughness is a measure of a material's resistance to crack propagation, and it is characterized by the critical stress intensity factor, KIC.

The equation that relates the critical stress intensity factor to the flaw size is:
KIC = Yσ√a
where Y is the shape factor, σ is the yield strength, and a is the flaw size.

Since the shape factor is assumed to be 1, we can simplify the equation to:
KIC = σ√a
We can rearrange this equation to solve for the largest flaw size:

a = (KIC/σ)^2
Substituting the values given in the problem, we get:
a = (25.6 mpa√m / 455 mpa)^2

a = 0.0004 m^2
Therefore, the largest flaw size that the aluminum alloy can support is 0.0004 square meters.

In summary, the strength and fracture toughness of the aluminum alloy must be considered when designing a structural plate component that must support a certain amount of tension. The critical stress intensity factor and flaw size can be used to determine the maximum load that the material can handle without failure. In this case, the largest flaw size that the aluminum alloy can support is 0.0004 square meters, given its yield strength and fracture toughness.

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A capillary tube 2mm in diameter is immersed in a beaker a


ercury. The mecury level inside the tube is found to be ose


on the level of the resenon- Determine the contact angre bet


the mecury and the glass (Tm = 0. 4 Nlm, Pm= 13. 6x1


Soln

Answers

The contact angle between the mercury and the glass is 32.2 degrees. In the case of a glass capillary of diameter nil, the contact angle would depend on the specific glass material and its surface properties.

To determine the contact angle between the mercury and the glass, we can use the Young-Laplace equation:

[tex]\Delta P = Tm(1/R1 + 1/R2)cos\theta[/tex]

where ΔP is the pressure difference between the inside and outside of the capillary, Tm is the surface tension of mercury, R1 and R2 are the radii of curvature of the mercury meniscus at the top and bottom of the capillary, respectively, and θ is the contact angle.

Assuming that the mercury meniscus is approximately spherical at the top and bottom of the capillary, we can use R1 = R2 = r, where r is the radius of the capillary. Then, the equation becomes:

[tex]\Delta P = 2Tm/r cos\theta[/tex]

We know that the height of the mercury inside the capillary is 0.5 cm, or 0.005 m. The pressure difference between the inside and outside of the capillary is due to the weight of the mercury column inside the capillary:

[tex]\Delta P = \rho gh = (13.6 \times 10^3\;kg/m^3)(9.81 m/s^2)(0.005\;m)[/tex]

[tex]\Delta P = 0.669 N/m^2[/tex]

Substituting the values into the equation, we get:

[tex]0.669 = 2(0.4)/0.002 \;cos\theta[/tex]

[tex]cos\theta = 0.836[/tex]

Taking the inverse cosine, we get:

[tex]\theta = 32.2\;degrees[/tex]

Therefore, the contact angle between the mercury and the glass is 32.2 degrees.

In the case of a glass capillary of diameter nil, the contact angle would depend on the specific glass material and its surface properties. However, the equation and method used to calculate the contact angle would be the same.

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Complete question:

A capillary tube 2mm in diameter is immersed in a beaker of mercury. The mercury level inside the tube is found to be 0.5cm below the level of the reservoir. Determine the contact angle between the mercury and the glass. (T m=0.4N/m, Pm = 13.6 x 103kg/m3). iffin nil if a glass capillary of diameter​.

What is the total amount of power delivered to the heater when the heater is connected for 240-volt operation when each heater is 300 watts?

Answers

The total amount of power delivered to the heater when each heater is 300 watts and the heater is connected for 240-volt operation is 300 watts.

To calculate the total amount of power delivered to the heater when each heater is 300 watts and the heater is connected for 240-volt operation, we can use the formula:

P = V * I

where P is power, V is voltage, and I is current.

For a 240-volt operation, we can calculate the current using Ohm's law:

V = I * R

where R is the resistance of the heater.

R can be calculated using the formula:

[tex]R = V^2 / P[/tex]

where P is the power of the heater (in watts).

Substituting the given values, we get:

R = [tex]240^2 / 300[/tex] = 192 Ω

Now, we can calculate the current:

I = V / R = 240 / 192 = 1.25 A

Finally, we can calculate the total power delivered to the heater:

P = V * I = 240 * 1.25 = 300 watts

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There are good bacteria that live in our gut. they benefit from us because they feed on what we eat, and we benefit from them because they keep harmful bacteria away. in one or two sentences, define this relationship and describe what could happen if we took too many bacteria- killing antibotics without the advice of a physician.

help please

Answers

The relationship between good bacteria and humans is symbiotic, where both the bacteria and humans benefit from each other.

The relationship between our gut and the good bacteria living in it is called a mutualistic relationship. This means that both parties benefit from the relationship. The good bacteria feed on what we eat and keep harmful bacteria away, while we benefit from their presence in our gut by having a healthy digestive system.

If we took too many bacteria-killing antibiotics without the advice of a physician, it could disrupt the balance of good bacteria in our gut, leading to an overgrowth of harmful bacteria, causing various digestive problems such as diarrhea, abdominal pain, and inflammation. It is essential to take antibiotics only when prescribed by a physician and follow the recommended dose to avoid such adverse effects on our gut microbiota.

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Part A Under what condition is the angular momentum of an object conserved? O If there are no torques acting on it. O If there is no net torque acting on it. If it is a point particle. If there is no net force acting on it. Submit Request Answer Part B On what does the angular momentum of an object depend? Select all that apply. O The axis of rotation. The shape of the object. O The mass of the object. O The rate at which that the object rotates. Submit Request Answer

Answers

Part A: The angular momentum of an object is conserved if there is no net torque acting on it.

Part B: The angular momentum of an object depends on the following factors:

a. The axis of rotation: The choice of axis around which the object rotates affects its angular momentum.

b. The shape of the object: The distribution of mass within the object and its shape impact its angular momentum.

c. The mass of the object: Objects with larger masses tend to have greater angular momentum.

d. The rate at which the object rotates: The angular velocity, which represents the rate at which the object rotates, affects its angular momentum. Higher angular velocities result in higher angular momentum.

Therefore, the factors that affect the angular momentum of an object are:

The axis of rotationThe shape of the objectThe mass of the objectThe rate at which the object rotates

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10. A thin beam of laser light of wavelength 514 nm passes through a diffraction grating having 3952 lines/cm. The resulting pattern is viewed on a distant curved screen that can show all bright fringes up to and including ±90. 0° from the central spot. What is the TOTAL number of bright fringes that will show up on the screen? A) 4 B) 5 C) 8 D) 9 E) 10

Answers

The TOTAL number of bright fringes that will show up on the screen is B) 5.

To answer this question, we need to use the following terms: wavelength, diffraction grating, lines/cm, and bright fringes.

Step 1: Convert the given data into meters
Wavelength (λ) = 514 nm = 514 * 10^(-9) m
Lines per cm (n) = 3952 lines/cm = 3952 * 10^2 lines/m (since 1 cm = 0.01 m)

Step 2: Calculate the grating spacing (d)
d = 1 / n = 1 / (3952 * 10^2) m

Step 3: Calculate the maximum order (m) using the grating equation
sin(90°) = m * λ / d

Since sin(90°) = 1,
m = d / λ

Step 4: Plug in the values and solve for m
m = (1 / (3952 * 10^2)) / (514 * 10^(-9))

m ≈ 2.09

Since m must be an integer, the maximum order is m = 2.

Step 5: Count the total number of bright fringes
For each order, there are 2 bright fringes (one on each side of the central spot), and one central spot (m = 0). Thus, the total number of bright fringes is:

Total bright fringes = 2 * (number of orders) + 1
Total bright fringes = 2 * (2) + 1
Total bright fringes = 5

So, the correct answer is B) 5.

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