A mass of 100 kg is 100 m away from a mass of 50 kg. Calculate the force of attraction between the masses. Show your work

Answers

Answer 1

The force of attraction between the two masses is [tex]3.335 \times 10^{-8} N[/tex].

The force of attraction between two masses is given by the gravitational force equation, which is expressed as:

[tex]$F = G \cdot \frac{m_1 \cdot m_2}{r^2}$[/tex]

where F is the force of attraction, G is the gravitational constant ([tex]$6.67 \times 10^{-11} , \text{N}\cdot\text{m}^2/\text{kg}^2$[/tex]), [tex]m_1[/tex]1 and [tex]m_2[/tex] are the masses of the two objects, and r is the distance between the centers of the two masses.

In this case, [tex]m_1[/tex] = 100 kg, [tex]m_2[/tex] = 50 kg, and r = 100 m. Substituting these values into the equation, we get:

[tex]$F = 6.67 \times 10^{-11} , \text{N}\cdot\text{m}^2/\text{kg}^2 \cdot \frac{(100 , \text{kg}) \cdot (50 , \text{kg})}{(100 , \text{m})^2}$[/tex]

[tex]F = 3.335 \times 10^{-8} N[/tex]

It is worth noting that the force of attraction between the two masses is very small, which is due to the large distance between them. The gravitational force decreases rapidly with distance, so as the distance between the two masses increases, the force of attraction decreases as well.

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Related Questions

Two balloons are separated by a distance of 25. 5 cm. One balloon is charged with a charge of + 6. 25 nC = + 6. 25 x 10-9 C and the other balloon is charges with a charge of - 3. 5 nC = - 3. 5 x 10-9 C. Calculate the magnitude of Coulombic Force between them. Explain what kind of coulombic force will exist between them (attractive or repulsive)?

Answers

The magnitude of Coulombic force between the two balloons is [tex]3.17 *10^{-4} N[/tex] and it is an attractive force as the two balloons have opposite charges (+ and - charges).

The Coulombic force between the two charged balloons can be calculated using Coulomb's law:

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

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

Substituting the given values, we get:

F =[tex]9 * 10^9 * [(+6.25 * 10^{-9}) * (-3.5 * 10^{-9})] / (0.255)^2[/tex]

F = [tex]-3.17 *10^{-4} N[/tex] (negative sign indicates an attractive force)

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The 300-series Shinkansen trains consist of 16 aluminum cars with a combined mass of 7. 10 X 105 kg. The reduction in mass from the 100-



series enables the 300-series trains to reach top speed of 270 km/h. What is the momentum of one of these trains at its top speed? Is the



momentum of a 300-series train greater or less than the momentum of a 100-series train traveling at its top speed?

Answers

The momentum of one 300-series Shinkansen train at its top speed of 270 km/h is 1.93 x[tex]10^{8}[/tex] kg*m/s.

Whast is Mass?

Mass is a fundamental physical property of matter that quantifies the amount of matter in an object. It is a scalar quantity that measures the resistance of an object to a change in its motion or acceleration, and is typically measured in units of kilograms (kg) in the International System of Units (SI).

The momentum (p) of an object can be calculated using the formula p = mv, where m is the mass of the object and v is its velocity. The mass of the 300-series Shinkansen train is given as 7.10 x [tex]10^{5}[/tex] kg. To calculate its momentum, we need to convert the velocity of 270 km/h to m/s. 270 km/h is equivalent to 75 m/s. Therefore, the momentum of one 300-series Shinkansen train at its top speed is:

p = mv = 7.10 x [tex]10^{5}[/tex] kg x 75 m/s = 1.93 x [tex]10^{8}[/tex] kg*m/s

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according to the laws of thermal radiation, hotter objects emit photons with group of answer choices a lower average energy. a lower average frequency. a shorter average wavelength. a higher average speed.

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This phenomenon, often referred to as blackbody radiation, is crucial to many disciplines, including astronomy, where it is used to investigate the temperature and make-up of stars.

According to the laws of thermal radiation, hotter objects emit photons with a shorter average wavelength. This is because the energy of a photon is directly proportional to its frequency, and inversely proportional to its wavelength. As the temperature of an object increases, the average energy of its emitted photons also increases.

This means that the average frequency of emitted photons is higher, which corresponds to a shorter average wavelength. This effect can be observed in everyday life, such as when a hot piece of metal glows red or even white-hot.

At these high temperatures, the emitted photons have very short wavelengths in the visible range, which gives the object its characteristic color. This phenomenon is known as blackbody radiation, and it plays an important role in many fields, including astronomy, where it is used to study the temperature and composition of stars.

This phenomenon, often referred to as blackbody radiation, is crucial to many disciplines, including astronomy, where it is used to investigate the temperature and make-up of stars.

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ACTIVITY 1: AGREE OR DISAGREE


Write AGREE, if you think the statement is correct and DISAGREE if otherwise


1. An RPE of 10 means that the activity is very light


2. Swimming and playing basketball are vigorous activities


3. Street and hip hip dances are active recreational activities


4. Proper execution of dance steps increases the risk of injuries


5. A normal nutritional status means that weight is proportional to the height


6. Physical inactivity and unhealthy diet are risk factors for heart disease.


7. Risk walking and dancing are activities which are moderate intensity


8. One can help the community by sharing his/her knowledge and skills in dancing


9. Surfing on the internet and playing computer games greatly improve one's fitness


10. A physically active person engages in 5-10 minutes of moderately vigorous physical activity three or more


times a week

Answers

1. DISAGREE: An RPE of 10 means the activity is extremely hard.
2. AGREE: Swimming and playing basketball are vigorous activities.
3. AGREE: Street and hip-hop dances are active recreational activities.
4. DISAGREE: Proper execution of dance steps reduces the risk of injuries.
5. AGREE: A normal nutritional status means that weight is proportional to the height.
6. AGREE: Physical inactivity and unhealthy diet are risk factors for heart disease.
7. AGREE: Risk walking and dancing are activities which are of moderate intensity.
8. AGREE: One can help the community by sharing his/her knowledge and skills in dancing.
9. DISAGREE: Surfing on the internet and playing computer games do not greatly improve one's fitness.
10. DISAGREE: A physically active person engages in at least 150 minutes of moderately vigorous physical activity per week.

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one person pulls on a rope with a force of 400 n to the right. another person pulls on the opposite end with a force of 600 n to the left. what is the unbalanced net force?

Answers

The unbalanced net force acting on the rope is 200 N to the left. This means that the rope will move in the direction of the net force, which is to the left.

The unbalanced net force is the overall force acting on the object after considering all the forces acting on it.

In this case, one person is pulling on a rope with a force of 400 N to the right and the other person is pulling on the opposite end with a force of 600 N to the left.

To determine the net force, we need to subtract the force acting in the opposite direction from the force acting in the forward direction.

Since the forces are in opposite directions, we need to subtract the smaller force from the larger force:

Net force = 600 N - 400 N = 200 N to the left

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Consider an atom that has an electron in an excited state. The electron falls to a lower energy level. What effect does that have on the electron?
A. The electron releases energy in the form of light.
B. The electron absorbs energy in the form of light.
The electron retains its energy without any change.
D. The electron transfers its energy to other electrons.

Answers

The correct answer is A. When an electron falls from a higher energy level to a lower energy level, it releases energy in the form of light. This process is called spontaneous emission.

Calculate the intensity transmission coefficient TI and reflection coefficient RI for the following interfaces: muscle/kidney, air/ muscle, bone/ muscle. assuming that the ultrasound incidence beam makes angle of 30 degree

Answers

The intensity transmission coefficient TI and reflection coefficient RI for the following interfaces: muscle/kidney, air/ muscle, and bone/ muscle. assuming that the ultrasound incidence beam makes an angle of 30 degree, θ' = 9.9 degrees, TI = 0.00061, RI = 0.99939.

To calculate the intensity transmission coefficient (TI) and reflection coefficient (RI) for each interface, we need to use the following equations:

TI = (2Z1cosθ)/(Z1cosθ + Z2cosθ')
RI = (Z2cosθ - Z1cosθ')/(Z2cosθ + Z1cosθ')
where Z1 and Z2 are the acoustic impedance of the two materials at the interface, θ is the angle of incidence (which is given as 30 degrees in this case), and θ' is the angle of transmission.
We can find the acoustic impedance for each material using the equation:
Z = ρc
where ρ is the density of the material and c is the speed of sound in that material. The values for ρ and c are typically given in tables or can be looked up online.
Using these equations, we can calculate the TI and RI for each interface:


Muscle/kidney interface:

- Z1 (muscle) = 1.64 x 10^6 kg/m²s
- Z2 (kidney) = 1.48 x 10^6 kg/m²s
- θ = 30 degrees

Using the equations above, we can find:

- θ' = 19.6 degrees
- TI = 0.71
- RI = 0.29

Air/muscle interface:

- Z1 (air) = 4 x 10^2 kg/m^2s
- Z2 (muscle) = 1.64 x 10^6 kg/m^2s
- θ = 30 degrees

Using the equations above, we can find:

- θ' = 1.9 degrees
- TI = 0.99999
- RI = 0.00001

Bone/muscle interface:

- Z1 (bone) = 7.8 x 10^6 kg/m^2s
- Z2 (muscle) = 1.64 x 10^6 kg/m^2s
- θ = 30 degrees

Using the equations above, we can find:

- θ' = 9.9 degrees
- TI = 0.00061
- RI = 0.99939

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A crate (60 kg) is in an elevator traveling upward and slowing down at 6 m/s2. find the normal force exerted on the crate by the elevator. assume g

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The normal force exerted on the crate by the elevator is 294 N. The normal force is the force exerted by a surface perpendicular to an object in contact with it.

In this case, the crate is in contact with the floor of the elevator. To solve the problem, we need to find the weight of the crate, which is given by its mass (60 kg) multiplied by the acceleration due to gravity (9.8 m/s2).

So the weight of the crate is 588 N. The force exerted on the crate by the elevator is the normal force.

According to Newton's second law, the sum of the forces acting on the crate is equal to its mass multiplied by its acceleration.

The crate is slowing down at 6 m/s2, so the net force on it is its weight minus the force exerted by the elevator.

Thus, the normal force is equal to the weight of the crate minus the net force acting on it, which is (60 kg)(9.8 m/s2) - (60 kg)(6 m/s2) = 294 N. Therefore, the normal force exerted on the crate by the elevator is 294 N.

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The electric field of a 460 mhz radio wave has a maximum rate of change of 4.5 × 1011 (v/m)/s. what is the wave's magnetic field amplitude?

Answers

The electric field of a 460 MHz radio wave with a maximum rate of change 4.5 × 1011 (v/m)/s. The wave's magnetic field amplitude is [tex]1.5 \times 10^{-3} T[/tex].

To determine the magnetic field amplitude of a 460 MHz radio wave with a maximum rate of change of the electric field, we can use the relationship between the electric and magnetic fields in electromagnetic waves.

The electric and magnetic fields are perpendicular to each other and travel at the speed of light. The magnetic field amplitude can be calculated using the formula:

B = E / c

Where B is the magnetic field amplitude, E is the maximum rate of change of the electric field, and c is the speed of light.

Substituting the given values, we get:

[tex]B = (4.5 \times 10^{11} V/m/s) / (3 \times 10^8 m/s)[/tex]

[tex]B = 1.5 \times 10^{-3} T[/tex]

Therefore, the magnetic field amplitude of the radio wave is [tex]1.5 \times 10^{-3} T.[/tex]

In summary, the magnetic field amplitude of a 460 MHz radio wave with a maximum rate of change of the electric field can be calculated using the relationship between the electric and magnetic fields in electromagnetic waves.

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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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if you are an astronaut on a planet with twice the mass of the earth, but eight times the radius of the earth, how would the planet's escape velocity compare to earth's escape velocity?

Answers

The escape velocity of the planet is roughly 0.707 times that of the Earth.

What is the equation for the two planets' escape velocity?

To get escape velocity, multiply 2 x G x M, divide the result by r, and then take the square root of the answer. In this equation, G stands for Newton's gravitational constant, M for the planet's mass in kilogrammes, and r for the planet's radius in metres.

v = √(2GM/r)

where M is the planet's mass, v is the escape velocity, G is the gravitational constant, and r is the planet's radius.

In this case, the planet has twice the mass of the Earth (2M) and eight times the radius of the Earth (8R).

v = √(2G(2M)/(8R))

Simplifying this expression, we get:

v = √(1/2) * √(GM/R)

Since GM/R is a constant for any planet, we can see that the escape velocity of this planet is equal to the escape velocity of Earth multiplied by √(1/2), which is approximately 0.707.

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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

The weight of the astronaut 6.37 × 106 meters above the surface of the Earth would be 160 N.

Weight of an astronaut

The weight of an object depends on its mass and the gravitational field it is in. Near the surface of the Earth, the acceleration due to gravity is approximately 9.81 m/s².

We can use the formula F = mg to calculate the weight of the astronaut at the surface of the Earth:

The gravitational field weakens as the distance from the center of the Earth increases, thus, we can use the formula for gravitational acceleration at a distance r from the center of the Earth:

g' = g (R / (R + h))²g' = 9.81 m/s² x (6.37 × 106 m / (6.37 × 106 m + 6.37 × 106 m))²g' = 1.96 m/s²

Now we can calculate the weight of the astronaut at this height:

F' = mg'F' = mass x (1.96 m/s²)

We don't know the mass of the astronaut, but we can use the weight at the surface of the Earth to find it:

F = mgm = F / g

         = 8.00 × 102 N / 9.81 m/s²

        = 81.63 kg

F' = (81.63 kg) x (1.96 m/s²)

F' = 160 N

Therefore, the weight of the astronaut 6.37 × 106 meters above the surface of the Earth is approximately 160 N.

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What's the mass and weight of each of object if there were placed on mass gmars=3. 8n/kg

Answers

The mass of an object is a measure of the amount of matter in the object, while weight is the force exerted on an object due to gravity: the mass of an object will remain the same regardless of its location in the universe, while its weight will vary depending on the gravitational force at that location.

Assuming that the question is referring to the planet Mars, where the gravitational force is approximately 3.8 N/kg, we can calculate the weight of each object based on their mass. For example, if we have an object with a mass of 1 kg, its weight on Mars would be:

Weight = Mass x Gravity

Weight = 1 kg x 3.8 N/kg

Weight = 3.8 N

Therefore, the weight of a 1 kg object on Mars would be 3.8 N. Using the same formula, we can calculate the weight of other objects placed on Mars based on their respective masses.

In conclusion, if an object is placed on Mars, its weight will vary depending on the planet's gravitational force, which is approximately 3.8 N/kg. However, its mass will remain the same regardless of its location in the universe.

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You look up and see a helicopter pass directly overhead. 3. 10s later you hear the


sound of the engine. If the air temperature is 23. 0°C, how high was the helicopter


flying?

Answers

The helicopter was flying at an approximate height of 1070.13 meters.

To determine the height at which the helicopter was flying, we can use the speed of sound and the time delay between seeing the helicopter and hearing the sound.

The speed of sound in air depends on the temperature of the air. The relationship between the speed of sound (v) and the air temperature (T) can be approximated by the equation:

v = 331.5 m/s + 0.6 m/s/°C * T

Given:

Time delay between seeing the helicopter and hearing the sound = 3.10 s

Air temperature = 23.0°C

First, let's calculate the speed of sound at the given air temperature:

v = 331.5 m/s + 0.6 m/s/°C * T

v = 331.5 m/s + 0.6 m/s/°C * 23.0°C

v ≈ 331.5 m/s + 13.8 m/s

v ≈ 345.3 m/s

Next, we can calculate the distance traveled by the sound in the time delay:

Distance = Speed × Time

Distance = 345.3 m/s × 3.10 s

Distance ≈ 1070.13 m

Since the sound traveled from the helicopter to your location, the distance is equal to the height at which the helicopter was flying.

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An archer shot a 0. 04 kg arrow at a target. The arrow accelerated at 7,000 m/s2 to reach a speed of 60. 0 m/s as it left the bow. How much force did the arrow have? ___N

Answers

The force exerted on the 0.04 kg arrow, which accelerated at 7,000 m/s² to reach a speed of 60.0 m/s, is 280 N.

To calculate the force exerted on the arrow, we can use Newton's second law of motion, which states that the force acting on an object is equal to its mass multiplied by its acceleration (F = m*a). In this case, the mass of the arrow (m) is 0.04 kg, and its acceleration (a) is 7,000 m/s².

Step 1: Identify the mass (m) and acceleration (a) of the arrow.
m = 0.04 kg
a = 7,000 m/s²

Step 2: Apply Newton's second law of motion (F = m*a) to calculate the force (F).
F = 0.04 kg * 7,000 m/s²

Step 3: Multiply the mass and acceleration values to obtain the force.
F = 280 N

Therefore, the force exerted on the arrow is 280 Newtons.

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The force of __________ will be greater if one object has a larger mass than the other

Answers

The force of gravity will be greater if one object has a larger mass than the other.

Gravity is the force of attraction between two objects with mass. According to Newton's law of gravitation, the force of gravity between two objects is directly proportional to the product of their masses and inversely proportional to the square of the distance between them.

F = G * (m₁ * m₂) / d²

where:

F = force of gravity

G = gravitational constant (a universal constant)

m₁, m₂ = masses of the two objects

d = distance between the two objects

As we can see from the formula, the force of gravity is directly proportional to the masses of the two objects. Therefore, if one object has a larger mass than the other, the force of gravity between them will be greater.

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What is the relationship between the value of the coefficient of friction and the mass of an object for the inclined plane experiment? to what extend does the result confirm this?​

Answers

The coefficient of friction and mass of an object both affect its acceleration on an inclined plane, and there is a relationship between the two as seen in the net force equation.

The coefficient of friction is a measure of the amount of friction between two surfaces in contact. For an inclined plane experiment, the coefficient of friction between the surface of the plane and the object sliding down it will affect the acceleration of the object. Specifically, a higher coefficient of friction will lead to a lower acceleration.

The mass of the object also affects its acceleration on the inclined plane. A heavier object will have a greater gravitational force acting on it, which will result in a greater acceleration down the plane.

The relationship between the coefficient of friction and the mass of an object can be seen in the equation for the net force on the object:

[tex]Fnet = mgsin(\theta) - \mu\;mgcos(\theta),[/tex]

where μ is the coefficient of friction, m is the mass of the object, g is the acceleration due to gravity, and θ is the angle of the inclined plane.

To confirm this relationship, experiments can be conducted with different masses and coefficients of friction, and the resulting accelerations can be measured. The data can then be analyzed to see if there is a correlation between the mass and coefficient of friction and the resulting acceleration.

In summary, the coefficient of friction and mass of an object both affect its acceleration on an inclined plane, and there is a relationship between the two as seen in the net force equation. Experiments can be conducted to confirm this relationship.

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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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Robert and his younger brother Jake decide to go fishing in a nearby lake. Just before they cast off, they are both sitting at the back of the boat and the bow of the boat is touching the pier. Robert notices that they have left the fishing bait on the pier and asks Jake to go get the bait. Jake has a mass of 59. 5 kg and an arm reach of 50. 0 cm, Robert has a mass of 87. 5 kg, and the boat has a mass of 83. 0 kg and is 2. 70 m long. Determine the distance the boat moves away from the pier as Jake walks to the front of th

Answers

Since the force is zero, the boat does not move. Therefore, the distance the boat moves away from the pier as Jake walks to the front of the boat is zero.  

To solve this problem, we need to use the conservation of linear momentum.

The total mass of the boat and the two brothers is given by:

M = m_boat + m_brother_1 + m_brother_2

= 83.0 kg + 59.5 kg + 50.0 kg

= 192.5 kg

The total momentum of the system before Jake starts walking is given by:

P_total = m_boat * v_boat + m_brother_1 * v_brother_1 + m_brother_2 * v_brother_2

= (83.0 kg) * (v_boat) + (59.5 kg) * (0) + (50.0 kg) * (0)

= 83.0 kg * v_boat + 297.5 kg * 0

= 210.5 kg * v_boat

v_boat is the velocity of the boat, measured in the same direction as the displacement of the boat.

Since the boat is stationary initially, v_boat = 0.

Now, we can apply Newton's second law to the system. The force exerted on the boat by Jake, who is walking towards the front of the boat, is equal to the momentum of the boat relative to Jake. Since Jake is walking away from the pier, the momentum of the boat relative to Jake is negative. Therefore, we have:

F = P_relative - P_initial

= -210.5 kg * v_boat - 297.5 kg * 0

= -408.0 kg * 0

= 0 N

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The figure shows a 25-cm-long metal rod pulled along two frictionless, conducting rails at a constant speed of 3. 5 m/s. The rails have negligible resistance, but the rod has a resistance of 0. 65 Ω

Answers

The magnitude of the force required to keep the rod moving at a constant speed is 0.9065 N.

First, let's find the induced electromotive force (EMF) using Faraday's law of electromagnetic induction: EMF = B * L * v, where L is the length of the rod, and v is its velocity. Converting the length to meters: L = 0.25 m.

EMF = 1.4 T * 0.25 m * 3.7 m/s = 1.295 V

Next, let's find the induced current using Ohm's law: I = EMF / R, where R is the resistance of the rod.

I = 1.295 V / 0.50 Ω = 2.59 A

The current induced in the rod is 2.59 A.

Now, let's calculate the magnitude of the force required to keep the rod moving at a constant speed. The force needed to maintain constant speed is equal to the magnetic force acting on the rod, which is given by F = I * L * B.

F = 2.59 A * 0.25 m * 1.4 T = 0.9065 N

The magnitude of the force required to keep the rod moving at a constant speed is 0.9065 N.

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Complete question:

The figure shows a 25 cm -long metal rod pulled along two frictionless, conducting rails at a constant speed of 3.7 m/s . The rails have negligible resistance, but the rod has a resistance of 0.50 Ω .

B=1.4T

What is the current induced in the rod?

What is the magnitude of the force is required to keep the rod moving at a constant speed?

A cheetah has 5 joules of kinetic energy and runs up a 5 m hill. When it gets to the top of the hill, it stops. What is the gravitational potential energy of the cheetah?

Answers

At the top of the hill, the cheetah has gravitational potential energy of about 5.02 joules. The gravitational potential energy of the cheetah at the top of the hill can be calculated using the formula E=mgh, where E is the potential energy, m is the mass of the cheetah, g is the acceleration due to gravity (which is approximately 9.8 m/s^2), and h is the height of the hill.

Since we don't have information about the mass of the cheetah, we can't use this formula directly. However, we do know that the cheetah used all of its kinetic energy to climb the hill. So, we can use the fact that the work done by the cheetah to climb the hill (which is equal to its initial kinetic energy) is equal to the change in gravitational potential energy:

W = ΔE

where W is the work done and ΔE is the change in energy.

In this case, W = 5 J (the initial kinetic energy of the cheetah), and ΔE is the change in gravitational potential energy. Since the cheetah started at ground level and climbed to a height of 5 m, the change in height (h) is 5 m.

So, we can calculate the gravitational potential energy of the cheetah as:

ΔE = mgh

5 J = m(9.8 m/s^2)(5 m)

Solving for m, we get:

m = 0.102 kg

Now that we know the mass of the cheetah, we can use the formula E=mgh to calculate the gravitational potential energy:

E = (0.102 kg)(9.8 m/s^2)(5 m)

E = 5.02 J

Therefore, the gravitational potential energy of the cheetah at the top of the hill is approximately 5.02 joules.

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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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How many grams are in 0. 02mol of Mg (25. 3g/mol)​

Answers

There are 0.506 grams in 0.02 moles of Mg

To find the grams of Mg in 0.02 mol, you can use the formula:

grams = moles × molar mass

In this case, moles = 0.02 mol, and the molar mass of Mg = 25.3 g/mol. Plug in the values:

grams = 0.02 mol × 25.3 g/mol

grams = 0.506 g

So, there are 0.506 grams of Mg in 0.02 mol.

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a motor supplies power to move a 1000 kg box up a frictionless incline at a constant speed. the box moves 13 m in 1 hour. if the power that needs to be supplied by the motor is 30 w, what is the angle of the incline? answer in degrees.

Answers

The angle of the incline is approximately 56.9 degrees.

To determine the angle of the incline, we need to use some basic physics equations related to work, power, and energy.

Firstly, we know that the box is moving up the incline at a constant speed, which means that the net force acting on it must be zero. Since there is no friction, the only force acting on the box is its weight, which is given by:

F = m * g

Where F is the force, m is the mass of the box, and g is the acceleration due to gravity. Substituting the given values, we get:

F = 1000 kg * 9.8 m/s^2

= 9800 N

Next, we need to determine the work done by the motor to move the box up the incline. Since the box is moving at a constant speed, the work done must be equal to the power supplied by the motor multiplied by the time taken. Using the given values, we get:

Work = Power * Time

Work = 30 W * 3600 s

= 108000 J

Finally, we can use the concept of potential energy to relate the work done to the change in height of the box. The potential energy of an object is given by:

PE = m * g * h

Where PE is the potential energy, h is the height above some reference level, and all other variables are as defined above. Since the box is moving up a frictionless incline, its potential energy is increasing by an amount equal to the work done by the motor. Thus, we have:

Work = PE_final - PE_initial

PE_final = m * g * h_final

PE_initial = m * g * h_initial

Substituting the given values, we get:

108000 J = 1000 kg * 9.8 m/s^2 * (h_final - h_initial)

Since the box is moving up the incline, its final height must be greater than its initial height. Dividing both sides by 1000 * 9.8, we get:

h_final - h_initial = 11.02 m

Now, we can use trigonometry to relate the height difference to the angle of the incline. Since the box is moving a horizontal distance of 13 m, we have:

sin(theta) = (h_final - h_initial) / 13

sin(theta) = 11.02 / 13

theta = sin^-1(11.02 / 13)

theta = 56.9 degrees (rounded to one decimal place)

Therefore, the angle of the incline is approximately 56.9 degrees.

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A certain vibrating string on a piano has a length of 74 cm and forms a standing wave having two antinodes. (a) Which harmonic does this wave represent?
(b) Determine the wavelength of this wave
(c) how many nodes are there if 20.0 Newton find the fundamental frequency I'm the next three frequencies that could cause standing wave patterns on the street

Answers

A standing wave with two antinodes on a vibrating string represents the 1st overtone, which is also known as the 2nd harmonic. The wavelength is 148 cm. The 2nd harmonic already has two antinodes, so for the 3rd, 4th, and 5th harmonics, there will be 3, 4, and 5 antinodes, respectively.

(a) A standing wave with two antinodes on a vibrating string represents the 1st overtone, which is also known as the 2nd harmonic.
(b) To determine the wavelength of this wave, first, recall that the length of the string is half of the wavelength for the 2nd harmonic. So, we can use the following formula:
Length of the string = Wavelength / 2
Now, plug in the given values:
74 cm = Wavelength / 2
To find the wavelength, multiply both sides by 2:
Wavelength = 74 cm × 2 = 148 cm
(c) If the tension in the string is 20.0 N, first, we need to find the fundamental frequency. In a standing wave pattern with 1 antinode (1st harmonic), the length of the string is equal to half of the wavelength. So, the wavelength of the fundamental frequency is:
Wavelength (1st harmonic) = 2 ×  Length of the string = 2 ×  74 cm = 148 cm
To find the next three frequencies that could cause standing wave patterns on the string, we will look at the 3rd, 4th, and 5th harmonics. For each harmonic, the number of nodes increases by 1. The 2nd harmonic already has two antinodes, so for the 3rd, 4th, and 5th harmonics, there will be 3, 4, and 5 antinodes, respectively.

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How does writing work according to Newton's 3rd Law?

Answers

Answer:

A short way to say Newton's third law is that for every action, there's an equal but opposite reaction. What this fails to mention is that the action and reaction forces are acting against different objects, so the forces do not neutralize and cause no motion.

When you write, you push the pen on the paper; the pen is pushing the paper. Meanwhile, the paper is pushing back on the pen in equal magnitude. The forces balance making the paper stay in place. The pen moves sideways, but that does not affect the paper or the contact between the two, so the pen remains on the paper an continues to write.

A mechanical system is used to pull a tarp over a grass tennis
court. On a clear, sunny day, the efficiency of the system is
55%. After a rainstorm, the efficiency is measured to be 65%.
Explain why there is a difference in the efficiencies.

Answers

The difference in efficiencies of the mechanical system can be attributed to several factors such as increase in frictional force between the tarp and the system, an increase in tarp weight owing to water absorption, and an overall increase in resistance on the grass court due to wetness.

Firstly, the frictional force between the tarp and the mechanical system may have increased due to water on the tarp, leading to a decrease in efficiency.

Secondly, the weight of the tarp may have increased due to water absorption, leading to a greater load on the mechanical system, which in turn reduces efficiency.

Thirdly, the presence of water on the grass court may have increased the overall resistance to the movement of the tarp, leading to a decrease in efficiency.

These factors combined may explain the observed difference in efficiencies between the clear, sunny day and after a rainstorm.

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What magnetic field is necessary for 1. 0 m3 of that field to contain 1. 0 J of energy?

Answers

Magnetic field is necessary for 1.0 [tex]m^{3}[/tex] of that field to contain 1.0 J of energy.

The energy density u of a magnetic field is given by

u = [tex]B^{2}[/tex]/(2μ)

Where B is the magnitude of the magnetic field and μ is the permeability of free space, which is a constant equal to 4π x [tex]10^{-7}[/tex] Tm/A.

If we want 1.0 [tex]m^{3}[/tex] of the magnetic field to contain 1.0 J of energy, we can rearrange the above equation to solve for B

Substituting the given values, we get

B =[tex]\sqrt{(2*4\pi *10^{-7}Tm/A*1 J/1m^{3 }[/tex]

B = 0.00224 T

Therefore, a magnetic field of 0.00224 T is necessary for 1.0 [tex]m^{3}[/tex] of that field to contain 1.0 J of energy.

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A 200-N solid sphere 0. 20 m in radius rolls without slipping 6. 0 m down a ramp that is inclined at 34° with the horizontal. What is the angular speed of the sphere at the bottom of the slope if it starts from rest?

Answers

The angular speed of the sphere at the bottom of the ramp is approximately 7.64 rad/s.

We can use the conservation of energy principle. The total mechanical energy of the system (kinetic energy + potential energy) will be conserved, assuming there is no friction.

1. Find the potential energy of the sphere at the top of the ramp:

U = mgh

where m = 200 N, g = [tex]9.8 m/s^2[/tex], and h = d*sin(θ)

h = 6.0 m * sin(34°) = 3.40 m

U = (200 N)*([tex]9.8 m/s^2[/tex])*(3.40 m) = 6616 J

2. Find the kinetic energy of the sphere at the bottom of the ramp:

[tex]K = (1/2)*I*w^2 + (1/2)*mv^2[/tex]

where I is the moment of inertia of the sphere, w is the angular speed, and v is the linear speed of the sphere.

Since the sphere is rolling without slipping, we can use the relationship between linear and angular speed:

v = r*w

Also, for a solid sphere, the moment of inertia is I = (2/5)*m*r^2.

Substituting these values, we get:

[tex]K = (1/2)*(2/5)*m*r^2*w^2 + (1/2)*mv^2[/tex]

[tex]K = (1/5)*m*r^2*w^2 + (1/2)*mv^2[/tex]

At the bottom of the ramp, the sphere has no initial linear or angular speed, so v = 0.

3. Equate the initial and final energies to find the final angular speed:

K + U = U_f

where U_f = 0 (since the sphere has reached the bottom of the ramp and has no potential energy).

Substituting the values of K and U, we get:

[tex](1/5)*m*r^2*w^2 = -U[/tex]

[tex](1/5)*200 N*(0.20 m)^2*w^2 = -6616 J[/tex]

Solving for w, we get:

[tex]w = \sqrt{(-5*6616 J / (2*200 N*(0.20 m)^2))}[/tex]

w ≈ 7.64 rad/s

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The farthest bright galaxies that modern telescopes are capable of seeing are up to:.

Answers

The farthest bright galaxies that modern telescopes are currently capable of seeing are up to several billions of light-years away. The exact distance depends on various factors such as the sensitivity and resolution of the telescope, observational techniques, and the brightness of the galaxy itself.

Modern telescopes, such as the Hubble Space Telescope and large ground-based observatories equipped with advanced instruments, have greatly advanced our ability to observe and study distant galaxies. These telescopes can detect and capture the light from galaxies that existed when the universe was relatively young.

Through deep field observations and gravitational lensing techniques, astronomers have been able to observe galaxies that are more than 13 billion light-years away. These observations provide valuable insights into the early universe and its evolution.

It's important to note that the term "bright" is relative and can vary depending on the context and specific criteria used for brightness. Additionally, ongoing advancements in telescope technology continue to push the limits of observation, and future telescopes and space missions are expected to enable us to see even farther into the universe.

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