1. Our entire solar system orbits around the center of the Milky Way Galaxyabout once every 230 million years.
2. The Milky Way and Andromeda galaxies are among a few dozen galaxies that make up our Local Group.
3. The Sun appears to rise and set in our sky because Earth orbitsonce each day.
4. You are one year older each time Earth rotatesabout the Sun.
5. On average, galaxies are getting farther apart with time, which is why we say our universeis expanding.
6. Our solar systemis moving toward the star Vega at about 70,000 km/hr.

Answers

Answer 1

Answer: Hello! Apparently, your question is incomplete. Those were sentences in which you had to complete with missing information, so here we go:

1- Our entire solar system orbits around the center of the MILKY WAY GALAXY about once every 230 million years.

2- The Milky Way and Andromeda galaxies are among a few dozen galaxies that make up our LOCAL GROUP.

3 - The Sun appears to rise and set in our sky because Earth ROTATES once each day.

4 - You are one year older each time Earth ORBITS about the Sun.

5 - On average, galaxies are getting farther apart with time, which is why we say our UNIVERSE is expanding.

6 - Our SOLAR SYSTEM is moving toward the star Vega about 70,000 km/hr.


Related Questions

Fiora starts riding her bike at 18 mi/h. After a while, she slows down to 12 mi/h, and maintains that speed for the rest of the trip. The whole trip of 69 miles takes her 4.5 hours. For how long did she travel at 18 mi/h?

Answers

Answer:

t = 2.5 hours

Explanation:

given,

speed of the bike for t time= 18 mi/h

final speed of the bike after t time = 12 mi/h

total distance, D = 69 miles

total time, T= 4.5 hour

time for which speed of the bike is 18 mi/h = ?

we know distance = speed x time

now,

18 x t + 12 (4.5 - t) = 69

6 t + 54 = 69

6 t = 15

t = 2.5 hours

The bike was at the speed of 18 mi/h for 2.5 hours.

the phrase positive to positive negative to ground is correct when jump starting a car true or false

Answers

Answer: TRUE

Explanation:Jump starting a car is a process of starting a car whose battery is Dead,which means it doesn't have enough battery life to start a Car.

The process involves bringing both cars close to each other and Connecting the positive side of a good battery to the positive side of the Dead battery using a JUMPER CABLES,

Connect the positive cable to the positive side of the working battery,

Connect the Negative cable to the Negative side of the working battery,

Finally,connect the Negative cable to a grounded meta part of the car we want to JUMP START.

Final answer:

The phrase "positive to positive, negative to ground" is true when jump starting a car.

Explanation:

The phrase "positive to positive, negative to ground" is true when jump starting a car.

When jump starting a car, it is important to connect the positive terminals of both the donor and recipient vehicles using jumper cables. Then, the negative terminal of the recipient vehicle should be connected to a grounded metal surface, such as the engine block or a bolt on the frame.

By following this phrase, you ensure that the electrical current flows in the correct direction, providing a safe and effective way to start a car with a dead battery.

Learn more about electrical current here:

https://brainly.com/question/31659051

#SPJ3

6. A car, 1110 kg, is traveling down a horizontal road at 20.0 m/s when it locks up its brakes. The coefficient of friction between the tires and road is 0.901. How much distance will it take to bring the car to a stop?

Answers

Final answer:

To calculate the distance that it will take to bring the car to a stop, we can use the equations of motion. The force of kinetic friction can be calculated by multiplying the coefficient of friction by the normal force. Using the equations v = u + at and s = ut + 0.5at^2, we can find the distance.

Explanation:

To calculate the distance that it will take to bring the car to a stop, we can use the equations of motion. The force of kinetic friction can be calculated by multiplying the coefficient of friction by the normal force. The normal force is equal to the weight of the car, which is given by the mass of the car multiplied by the acceleration due to gravity. The force of kinetic friction is equal to the mass of the car multiplied by the acceleration. Rearranging the equation F = ma to solve for acceleration gives us a = F/m. Substituting the force of kinetic friction for F and the mass of the car for m, we can find the acceleration. Using the equation v = u + at, where v is the final velocity (0 m/s), u is the initial velocity (20.0 m/s), a is the acceleration, and t is the time, we can solve for t. Finally, we can use the equation s = ut + 0.5at^2 to calculate the distance s that it will take to bring the car to a stop. Plugging in the values for u, t, and a will give us the answer.

If the voltage of the secondary side of the transformer is less than ? and the voltage of the primary side of the transformer exceeds ? to ground, the secondary side shall be grounded.?

Answers

Answer:

50 V / 150 V

Explanation:

Final answer:

The question discusses the grounding of a transformer based on voltage levels and defines the characteristics of step-down and step-up transformers in terms of voltage and current. Transforming the power efficiently is crucial, and the number of windings plays a significant role in determining the output voltage and current.

Explanation:

The question pertains to transformers and their operating principles regarding voltage, current, and the number of windings. If the voltage at the secondary side of a transformer is less than 50 volts and the primary side exceeds 150 volts to ground, the secondary side shall be grounded.

When a transformer has fewer windings in the secondary coil compared to the primary coil, it is a step-down transformer, meaning the secondary voltage is less than the primary voltage. Conversely, a step-up transformer has more windings in the secondary coil, resulting in a higher secondary voltage compared to the primary voltage.

In the context of primary and secondary properties of transformers, option (a) the Primary voltage is higher than secondary voltage defines a step-down transformer. Additionally, (c) the Primary current is higher than secondary current is not typically true for a step-down transformer.

Instead, the primary current would be lower than the secondary current since power (P = IV) is conserved across the transformer. Therefore, if the voltage decreases, the current must increase to maintain the equivalent power (assuming ideal conditions with no power losses).

A vertical steel beam in a building supports a load of 6.0×10⁴. If the length of the beam is 4.0m and it's cross-sectional area is 8.0×10^-3m². Find the diameter of the beam which is compressed along its length

Answers

Answer:

DL = 1.5*10^-4[m]

Explanation:

First we will determine the initial values of the problem, in this way we have:

F = 60000[N]

L = 4 [m]

A = 0.008 [m^2]

DL = distance of the beam compressed along its length [m]

With the following equation we can find DL

[tex]\frac{F}{A} = Y*\frac{DL}{L} \\where:\\Y = young's modulus = 2*10^{11} [Pa]\\DL=\frac{F*L}{Y*A} \\DL=\frac{60000*4}{2*10^{11} *0.008} \\DL= 1.5*10^{-4} [m][/tex]

Note: The question should be related with the distance, not with the diameter, since the diameter can be found very easily using the equation for a circular area.

[tex]A=\frac{\pi}{4} *D^{2} \\D = \sqrt{\frac{A*4}{\pi} } \\D = \sqrt{\frac{0.008*4}{\\pi } \\\\D = 0.1[m][/tex]

Indicate whether each of the following statements is true or false. 1. The molecules in hot air move at the same speed as in cold air, but there are more molecules so they feel hotter. 2. In a coal-fired power plant, the types of energy from start-to-finish are: electrical, mechanical, thermal, and chemical. 3. In a coal-fired power plant, the approximate percentage of original energy in the coal lost to heat is 10%.

Answers

Answer:

1) False

2) False (chemical, thermal, mechanical and electrical)

3) False

Explanation:

1.

We have the expression for the root mean square velocity of the molecules of gases as:

[tex]v_{rms}=\sqrt{\frac{3.k_b.T}{M} }[/tex]

where:

[tex]k_b=[/tex] Boltzmann constant

[tex]T=[/tex] temperature of the gas

[tex]M=[/tex] molecular mass of the gas

2.

In a coal-fired powered the types of energy form start to finish can be given as;

At first the chemical energy of the coal gets converted into heat energy after the process of combustion.Then next, this heat is utilized for generating high pressure steam which drives the turbine converting the heat energy into the mechanical energy.Then this rotational motion of turbine shaft is coupled with the armature of the alternator to convert the mechanical energy into electrical energy.

3.

In a coal fired power plant the approximate percentage of original energy in the coal lost to heat is approximately 60%.

Which statement correctly compares sound and light waves?
A) Both light and sound waves need matter to carry energy from one place to another.
B) Neither light nor sound waves need matter to carry energy from one place to another.
C) Light waves carry energy paral

Answers

Answer:

D) Sound waves carry energy parallel to the motion of the wave, while light waves carry energy perpendicular to it.

Explanation:

A) This is incorrect because Light waves do not need a medium to pass through it while Sound waves need a medium to pass through it.

B) This is incorrect as explained above.

C) This is incorrect because Light waves do not carry energy parallel to the motion of the wave.

Light waves are transverse waves, as so they carry energy perpendicular to the motion of the wave while Sound waves are longitudinal waves and so, they carry energy parallel to the motion of the wave.

D) This is correct because Sound waves carry energy parallel to the motion of the wave.

Sound waves are transverse waves, as so they carry energy parallel to the motion of the wave while Light waves are longitudinal, as so they carry energy perpendicular to the motion of the wave.

Answer:

D-Sound waves carry energy parallel to the motion of the wave, while light waves carry energy perpendicular to it.

Explanation:

After skiding down a snow-covered hill on an inner tube, Ashley is coasting across a level snowfield at a constant velocity of 2.7 m/s. Miranda runs after her at a velocity of 4.1 m/s and hops on the inner tube. How fast do the two of them slide across the snow together on the inner tube?

Answers

Answer:

3.3 m/s

Explanation:

The question is incomplete, here is the complete question:

After skiding down a snow-covered hill on an inner tube, Ashley is coasting across a level snowfield at a constant velocity of 2.7 m/s. Miranda runs after her at a velocity of 4.1 m/s and hops on the inner tube. How fast do the two of them slide across the snow together on the inner tube? Ashley's mass is 71 kg and Miranda's is 58 kg. Ignore the mass of the inner tube and any friction between the inner tube and the snow.

SOLUTION:

mass of Ashley (Ma) = 71 kg

mass of Miranda (Mm) = 58 kg

initial velocity of Ashley (Va) = 2.7 m/s

initial velocity of Miranda (Vm) = 4.1 m/s

Find the final velocity (Vf) at which they both slide together

from the conservation of momentum, initial momentum = final momentum

Ma.Va + Mm.Vm = (Ma + Mm) . Vf

[tex]Vf = \frac{Ma.Va + Mm.Vm}{Ma + Mm} \\ Vf=\frac{(71 x 2.7) + (58 x 4.1)}{71+58}[/tex]

Vf = (191.7 +237.8) / (129)

Vf = 3.3 m/s

The average speed of a nitrogen molecule in air is proportional to the square root of the temperature in kelvins (K). If the average speed is 475 m/s on a warm summer day (temperature=300.0 K), what is the average speed on a frigid winter day (250.0 K)?

Answers

Answer:

v₂ = 395.83 m/s

Explanation:

given,

Average speed of nitrogen molecule, v₁ = 475 m/s

Temperature in summer, T₁ = 300 K

Average speed of nitrogen molecule in winter, v₂ = ?

Temperature in winter, T₂ = 250 K

The relation of average speed with temperature

          [tex]v\ \alpha\ \sqrt{T}[/tex]

now,

        [tex]\dfrac{v_2}{v_1} = \dfrac{\sqrt{T_2}}{\sqrt{T_1}}[/tex]

        [tex]\dfrac{v_2}{475} = \dfrac{\sqrt{250}}{\sqrt{300}}[/tex]

                     v₂ = 0.833 x 475

                     v₂ = 395.83 m/s

The average speed on a frigid winter day is equal to v₂ = 395.83 m/s

Under what circumstances can energy level transitions occur?

Answers

Final answer:

Energy level transitions in physics occur when an atom or molecule absorbs or emits electromagnetic radiation. The circumstances of these transitions depend on the system being studied.

Explanation:

Energy level transitions in physics typically occur when an atom or a molecule absorbs or emits electromagnetic radiation. When an electron within an atom moves from a lower energy level to a higher energy level, it absorbs energy. Conversely, when an electron moves from a higher energy level to a lower energy level, it emits energy in the form of electromagnetic radiation.

These transitions can occur under various circumstances, such as when an atom is excited by heat or light, or when an electron interacts with another particle. For example, in the hydrogen atom, transitions between different energy levels give rise to the absorption and emission of specific wavelengths of light, leading to the existence of discrete spectral lines. It is important to note that the exact circumstances of energy level transitions depend on the specific system being studied, such as atoms, molecules, or subatomic particles.

Learn more about Energy level transitions here:

https://brainly.com/question/35539896

#SPJ12

Energy level transitions in atoms occur when an electron absorbs or emits energy, typically through photon interactions, due to electronic rearrangements.

Energy level transitions in atoms happen when electrons change their energy states. These transitions can occur under several circumstances:

Absorption of Photons: Electrons can move to higher energy levels by absorbing photons with specific energy levels corresponding to the energy difference between the levels. This is observed in absorption spectra.

Emission of Photons: Electrons release energy in the form of photons when transitioning from higher to lower energy levels. These emitted photons produce emission spectra.

Electron Collisions: In certain situations, such as in a plasma, collisions between electrons and other particles can excite electrons to higher energy states, leading to subsequent de-excitation and photon emission.

External Energy Sources: External sources like electrical discharges or high-temperature environments can energize electrons, causing transitions between energy levels.

To learn more about Electron here

https://brainly.com/question/12001116

#SPJ12

A boy is sledding down a hill and has an initial speed of +12 m/s. He continues to speed up and reaches a final velocity of +18m/s after traveling for 12 seconds what distance does the boy travel?

Answers

Answer:

180m

Explanation:

V = Final velocity = 18

U = Initial Velocity = 12

a = Acceleration = (18-12)/12 = 6/12 = 0.5

d = ?

V² = U² + 2ad

18² = 12² + 2*0.5*d

324 = 144 +d

d = 324 - 144

d = 180m

Final answer:

The boy travels a distance of 180 meters. This calculation is based on the kinematic equations for uniformly accelerated motion using the given initial and final velocities and the time taken.

Explanation:

The subject of the question is Physics, and it appears to be at a High School level. The problem deals with kinematics, specifically the equations of motion for an object with constant acceleration. To find the distance traveled by the boy sledding down the hill, we can use the kinematic equation: s = ut + ½ at², where s is the distance, u is the initial velocity, t is the time, and a is the acceleration. The initial speed u is given as +12 m/s, the final velocity v is +18 m/s, and the time t is 12 seconds. We first find the acceleration using the formula a = (v - u) / t. Substituting the known values, we get a = (18 m/s - 12 m/s) / 12 s = 0.5 m/s². Now we can calculate the distance s using the kinematic equation: s = (12 m/s)(12 s) + ½(0.5 m/s²)(12 s)² = 144 m + 36 m = 180 m. Therefore, the boy travels a distance of 180 meters.

In 1996, NASA performed an experiment called the Tethered Satellite experiment. In this experiment a 2.30 104-m length of wire was let out by the space shuttle Atlantis to generate a motional emf. The shuttle had an orbital speed of 7.50 103 m/s, and the magnitude of the earth's magnetic field at the location of the wire was 5.40 10-5 T. If the wire had moved perpendicular to the earth's magnetic field, what would have been the motional emf generated between the ends of the wire?

Answers

emf = 9.3 x 10³

Explanation:

When a conductor moves in the magnetic field , the emf is generated across its ends . Which can be calculated by the relation

emf  ξ = B x l x v

here B is the magnetic field strength , l is the length of conductor and v is its velocity .

In our question B = 5.4 x 10⁻⁵ T

l = 2.30 x 10⁴ m  and v = 7.5 x 10³

Thus  ξ = 5.4 x 10⁻⁵ x 2.30 x 10⁴ x 7.5 x 10³ = 9.3 x 10³ Volt

What is the angular diameter (in arcseconds) of an object that has a linear diameter of 75 cm and a distance of 2 km?

Answers

Answer:

The angular diameter is 77.35 arc-seconds.

Explanation:

The angular diameter, as shown in the figure, is the angle [tex]x[/tex]  subtended by the the diameter of the object.

Before we do the calculation, we first convert everything to meters.

The diameter of the of the object in meters is

75cm =0.75m,

and the distance to the object in meters is

2 km = 2000 m.

Now, from trigonometry we get:

[tex]tan (\frac{x}{2} )= \dfrac{radius}{length} = \dfrac{0.75/2}{2000} \\\\\dfrac{x}{2} = tan^{-1}(\dfrac{0.75/2}{2000})\\\\\dfrac{x}{2}= 0.0107\\\\\boxed{x= 0.0215^o}[/tex]

and since 1 degree = 3600 arc-seconds, [tex]x[/tex] in arc-seconds is

[tex]x= 0.0215*3600 \\\\\boxed{x= 77.35''}[/tex]

A racetrack curve has radius 70.0 m and is banked at an angle of 12.0 ∘. The coefficient of static friction between the tires and the roadway is 0.400. A race car with mass 1200 kg rounds the curve with the maximum speed to avoid skidding. consider friction when solving for a, b, and c.

a) As the car rounds the curve, what is the normal force exerted on it by the road?

b) What is the car's radial acceleration?

c) What is the car's speed?

d) In the case of a banked curve with friction, which of the following forces contribute to the centripetal (inward) acceleration: the frictional force, the normal force, and/or the gravity? and why?

Answers

Answer:

See attachment below

Explanation:

The normal force exerted on the car by the curved road is 13,139.7 N.

The radial acceleration of the car is 6.56 m/s².

The speed of the car is 21.43 m/s.

In the case of a banked curve with friction, the centripetal acceleration is increased by normal force and frictional force since it prevents the car from skidding.

The given parameters;

radius of the curved path, r = 70 mbanking angle, θ = 12⁰coefficient of friction, μ = 0.4 mass of the race car, m = 1200 kg

The normal force exerted on the car by the curved road is calculated as follows;

[tex]\Sigma F_y = 0\\\\Ncos(\theta) - \mu_s Nsin(\theta) - mg = 0\\\\Ncos(\theta) - \mu_s Nsin(\theta) = mg\\\\N(cos\theta \ - \ \mu_s sin(\theta)) = mg\\\\N = \frac{mg }{cos\theta - \mu_s sin(\theta)} \\\\N = \frac{(1200 \times 9.8)}{cos (12) - \ 0.4\times sin(12)} \\\\N = 13,139.7 \ N[/tex]

The radial acceleration of the car is calculated as follows;

[tex]\Sigma F_x = ma_c\\\\ma_c = Nsin(\theta) + \mu_s N cos(\theta)\\\\a_c = \frac{Nsin(\theta) + \mu_s N cos(\theta)}{m} \\\\a_c = \frac{(13, 139.7)sin(12) \ + \ 0.4 \times 13,139.7cos(12)}{1200} \\\\a_c = 6.56 \ m/s^2[/tex]

The car's speed is calculated as follows;

[tex]a_c = \frac{v^2}{r} \\\\v^2 = a_c r\\\\v = \sqrt{a_c r} \\\\v = \sqrt{6.56 \times 70} \\\\v = 21.43 \ m/s[/tex]

In the case of a banked curve with friction, the centripetal acceleration is increased by the following;

[tex]ma_c = Nsin(\theta) + F_s\\\\ma_c = Nsin(\theta) + \mu_s Ncos (\theta)[/tex]

where;

[tex]F_s[/tex] is the frictional forceN is the normal force

Thus, In the case of a banked curve with friction, the centripetal acceleration is increased by normal force and frictional force since it prevents the car from skidding.

Learn more here:https://brainly.com/question/14209158

A protester carries his sign of protest, starting from the origin of an xyz coordinate system, with the xy plane horizontal. He moves 40 m in the negative direction of the x axis, then 20 m along a perpendicular path to his left, and then 25 m up a water tower.
(a) In unit-vector notation, what is the displacement of the sign from start to end?
(b) The sign then falls to the foot of the tower. What is the magnitude of the displacement of the sign from start to this new end?

Answers

Answer:

Part A:

[tex]Displacement\ vector= -40\hat i+20\hat j+25\hat k[/tex]

Part B:

Magnitude of displacement=44.721359 m

Explanation:

Given Data:

40 m in negative direction of the x axis

20 m perpendicular path to his left (considering +ve y direction)

25 m up a tower (Considering +ve z direction)

Required:

In unit-vector notation, what is the displacement of the sign from start to end.The magnitude of the displacement of the sign from start to this new end=?

Solution:

Part A:

[tex]Displacement= (0-40)\hat i+(0+20)\hat j+(0+25)\hat k\\Displacement= -40\hat i+20\hat j+25\hat k[/tex]

where:

i,j,k are unit vectors

Part B:

Sign falls to foot of tower so z=0

[tex]Displacement= -40\hat i+20\hat j+0\hat k[/tex]

Magnitude of displacement:

[tex]Magnitude\ of\ displacement=\sqrt{(-40)^2+(20)^2+0^2} \\Magnitude\ of\ displacement=44.721359\ m[/tex]

Which motion maps show an object in uniform circular motion? Check all that apply. V W X Y

Answers

The correct options are V, W, and Y

Uniform Circular Motion is the motion when an object moves in a circular path with constant speed (uniform speed). In such a motion,

1- The position keeps on changing,

2- The speed remains constant

Now checking all the option

V- It shows the uniform circular motion since all the direction is uniform,

W-It shows the uniform circular motion since all the direction is uniform,

X-Direction are different,

Y-It shows the uniform circular motion since all the direction is uniform,

Hence, all the above options,

The correct options are V, W, and Y

For more about the uniform circular motion follow the link below,

https://brainly.com/question/12920060

A 56.0kg ice skater spins about a vertical axis through her body with her arms horizontally outstretched, making 2.50 turns each second. The distance from one hand to the other is 1.5m. Biometric measurements indicate that each hand typically makes up about 1.25 % of body weight.
Part A) horizontal force must her wrist exert on her hand F=150N

Express the force in part (a) as a multiple of the weight of her hand?

Answers

Answer:

Net force = 129.4, Force as multiple of weight of her hand = 18.84

Explanation:

Given Data:

Total body weight = 56.0 kg   ;

no. of turns = 2.5/second        ;

hand to hand distance = 1.5m ;

weight of hand = 1.25% of body weight ;

Solution:

mass of hand = [tex]\frac{1.25}{100}[/tex]*56 = 0.7kg ;

radius = d/2 = 1.5/2 = 0.75m     ;

Now we need to find velocity, as we know that velocity can be calculated by dividing distance by time

v = d/t = [tex]\frac{2.5*2*3.14*0.75}{1}[/tex] = 11.775 m/s or 12 m/s;

a.

The formula to calculate force is given as

F = mv²/r = (0.7*11.775²)/0.75 = 129.4 N

b.

To calculate force as multiple of weight on her hand, we need to calculate the gravitational force W on her hand first.

W = gm = 9.81 * 0.7 = 6.867 N

Now the wieght on her hand can be represented by

[tex]\frac{Force_{net} }{weight of hand}[/tex]  = 129.4 / 6.867 = 18.84

Final answer:

The force that the ice skater exerts on her hand (150N) is roughly 22 times the weight of her hand (6.86N). She achieves this by spinning with her arms outstretched.

Explanation:

The skater's hand, as given by biometric measurements, makes up about 1.25% of her body weight. Since her body weight is 56.0kg, her hand weight would be 0.0125 * 56.0kg = 0.7kg. In terms of newtons (N), when we consider the acceleration due to gravity as approximately 9.8 m/s², the weight of her hand becomes 0.7kg * 9.8 m/s² = 6.86N. Thus, if we're asked to express the force that her wrist exerts on her hand (150N) as a multiple of the weight of her hand, we'll divide the two forces. Namely, F_hand/F_weight = 150N/6.86N which is approximately 21.86. Therefore, the force her wrist exerts on her hand is roughly 22 times the weight of her hand.

Learn more about Force and Weight here:

https://brainly.com/question/35877739

#SPJ11

Which materials should Hannah choose for her pot and spoon?
A. Hannah should choose copper for her pot because it has the lowest specific heat, and
she should choose wood for her spoon because it has the highest specific heat.
B. Hannah should choose wood for her pot because it has the highest specific heat, and
she should choose copper for her spoon because it has the lowest specific heat.
C. Hannah should choose wood for her pot because it has the highest specific heat, and
she should choose rubber for her spoon because it has the second highest specific
heat.
D. Hannah should choose copper for her pot because it has the lowest specific heat, and
she should choose steel because it has the second lowest specific heat.

Answers

A. Hannah should choose copper for her pot because it has the lowest specific heat, and  she should choose wood for her spoon because it has the highest specific heat

Explanation:

The specific heat capacity of a substance is the amount of heat required to increase the temperature of 1 kg of the substance by 1 degree.

Mathematically:

[tex]C=\frac{Q}{m\Delta T}[/tex]

where

Q is the amount of heat supplied to the substance

m is the mass of the subtsance

[tex]\Delta T[/tex] is the increase in temperature

This means that:

A substance with higher specific heat needs a lot of energy to raise its temperatureA substance with higher specific heat needs a small amount of energy to increase its temperature

In this situation, we want:

A material with low specific heat for the pot, because the pot must be able to transmit heat efficiently, so it must be able to become hot (=increase its temperature) with a small amount of heatA material with high specific heat for the spoon, so that the spoon does not become too hot too fast (because it takes a lot of energy to increase its temperature)

Therefore, the most reasonable choice in this situation is:

A. Hannah should choose copper for her pot because it has the lowest specific heat, and  she should choose wood for her spoon because it has the highest specific heat

Learn more about specific heat:

brainly.com/question/3032746

brainly.com/question/4759369

#LearnwithBrainly

A piano tuner hears a beat every 1.80 s when listening to a 272.0 Hz tuning fork and a single piano string. What are the two possible frequencies (in Hz) of the string? (Give your answers to at least one decimal place.)

Answers

Answer:

272.56 or 271.44

Explanation:

[tex]Fbeat=\frac{1}{Tbeat} \\=\frac{1}{1.8} \\=0.56 Hz[/tex]

[tex]Fbeat=abs(f1-f2)\\0.56=abs(272-f2)\\\\f2=272.56\\f2=271.44[/tex]

What is the magnitude of energy of a photon of light (in J) that is emitted when an excited electron in a hydrogen atom falls from n = 4 down 1 energy levels?

Answers

Answer:

[tex]2.044 * 10^{-18}[/tex] J

Explanation:

Parameters given:

[tex]n_{1} = 4\\\\n_{2} = 1[/tex]

We know that the electron fell from level 4 to level 1. We can use the Rydberg's equation to find the [tex]2.044 * 10^{-18}[/tex] that is emitted by the electron in the process. Rydberg's equation is given as:

1/λ = [tex]R * (\frac{1}{(n_{2})^2} - \frac{1}{(n_{1})^2})[/tex]

where R = Rydberg's constant = [tex]1.0973731568508 * 10^{7}[/tex]

1/λ =    [tex]1.0973731568508 * 10^{7} (\frac{1}{1^{2}} - \frac{1}{4^{2}} } )[/tex]

1/λ =    [tex]1.0973731568508 * 10^{7} (\frac{1}{1} - \frac{1}{16} } )[/tex]

1/λ =   [tex]1.0973731568508 * 10^{7} * \frac{15}{16}[/tex]

1/λ =   [tex]1.029 * 10^{7}[/tex] [tex]m^{-1}[/tex]

λ = [tex]9.72 * 10^{-8}[/tex] m

Energy of the photon is given by:

E = (hc)/λ

where

h = Planck's constant = [tex]6.62607004 * 10^{-34} m^2 kg / s[/tex]

c = speed of light = 299792458 m / s

∴ E =    [tex]\frac{6.62607004 * 10^{-34} * 299792458}{9.72 * 10^{-8}}[/tex]

E = [tex]2.044 * 10^{-18}[/tex] J

The energy of the photon is [tex]2.044 * 10^{-18}[/tex] J

Final answer:

The energy of a photon emitted when an electron in a hydrogen atom falls from n=4 to n=3 can be found using the Rydberg formula. The constant R (Rydberg constant) along with the energy levels n1 and n2 are used in the formula to calculate this energy in joules.

Explanation:

The magnitude of energy of a photon of light that is emitted when an excited electron in a hydrogen atom falls from n = 4 to n = 3 can be calculated using the Rydberg formula for the energy difference between two hydrogen energy levels. In this case, since the question only specifies a drop of one energy level, we'll correct the typo where it currently indicates a fall from n=4 to n=1, and we'll proceed with the fall from n=4 to n=3. The formula to use is:

E = R ×  (1/n1² - 1/n2²)

where:

R is the Rydberg constant (2.179 × 10⁻¹⁸ J),

n1 and n2 are the principal quantum numbers (integers) for the initial and final energy levels, respectively.

The calculation is then:

E = 2.179 × 10⁻¹⁸ J ×  (1/3² - 1/4²) = 2.179 × 10⁻¹⁸ J ×  (1/9 - 1/16) = 2.179 × 10⁻¹⁸ J × (7/144)

After calculating the above expression, you will get the energy in joules of the photon emitted due to the electron's transition.

What is the excess charge on a conducting sphere of radius r = 0.31 m if the potential of the sphere is 1375 V and V = 0 at infinity?

Answers

Given Information:

Radius = r = 0.31 m

Potential difference = V = 1375 Volts

Required Information:

charge = q = ?

Answer:

q = 4.741x10⁻⁸ C

Solution:

[tex]V = kq/r[/tex]

Where k = 8.99x10⁹ N.m²/C² is the Coulomb's constant

Re-arranging the equation to find the q

[tex]q = Vr/k[/tex]

q = (1375*0.31)/8.99x10⁹

q = 4.741x10⁻⁸ C = 47.41 nC

A 5.67 gram coin is placed on a record that is rotating at 33.3 rpm. If the coefficient of the static friction is 0.100, how far from the center of the record can the coin be placed without having it slip off?

Answers

Answer:

81 mm from the center

Explanation:

5.67g = 0.00567 kg

33.3 revolutions per minute = 33.3 (rev/min) * 2π (rad/rev) * (1/60) (min/sec) = 3.487 rad/s

The weight of the coin is product of mass and gravitational acceleration g = 9.81m/s2

W = mg = 0.00567 * 9.81 = 0.0556 N

Which is also the normal force of the record acting back on the coin to balance it.

Them the static friction is product of normal force and friction coefficient

[tex]F_f = N\mu = 0.0556*0.1 = 0.00556 N[/tex]

For the coin to NOT slip off, its centripetal force should at most be equal to the static friction

[tex]F_c = 0.00556[/tex]

[tex]a_cm = 0.00556[/tex] Newton's 2nd law

[tex]a_c = 0.00556 / 0.00567 = 0.981 m/s^2[/tex]

The centripetal acceleration is the product of squared angular velocity and radius of circular motion

[tex]a_c = \omega^2r[/tex]

[tex]r = \frac{a_c}{\omega^2} = \frac{0.981}{3.487^2} = 0.081m[/tex] or 81 mm

In the video, the torque due to the mass of the plank is used in the calculations. For this question, ignore the mass of the board. Rank, from largest to smallest, the mass m needed to keep the board from tipping over. To rank items as equivalent, overlap them.

Answers

Answer:

D, A & B, C, E

Explanation:

In each problem, sum the torques about the edge of the table.

A) ∑τ = Iα

mg (-1.5 m) + (100 kg) g (1.5 m) = 0

m = 100 kg

B) ∑τ = Iα

mg (-0.75 m) + (100 kg) g (0.75 m) = 0

m = 100 kg

C) ∑τ = Iα

mg (-1.5 m) + (100 kg) g (0.75 m) = 0

m = 50 kg

D) ∑τ = Iα

mg (-1.5 m) + (200 kg) g (1.5 m) = 0

m = 200 kg

E) ∑τ = Iα

mg (-1.5 m) + (100 kg) g (0.5 m) = 0

m = 33.3 kg

The wavelength of green light from a traffic signal is centered at 5.20*10^-5cm. Calculate the frequency.

Answers

Answer:

5.8×10^11Hz

Explanation:

Frequency is the ratio of the speed of the light wave to its wavelength.

Frequency (f)= velocity(v)/Wavelength (¶)

Given wavelength = 5.2×10^-5cm = 5.2×10^-3m (converted to meters)

Velocity of light = 3×10^8

Substituting the values given in the formula we have

Frequency = 3×10^8/ 5.2×10^-3

Frequency = 5.8×10^11Hz

The frequency of the green light from the traffic signal is 5.77 × 10¹⁴ Hertz.

Given the data in the question;

Wavelength; [tex]\lambda = 5.20*10^{-5}cm = 5.20*10^{-7}m[/tex]

Frequency; [tex]f = \ ?[/tex]

To determine the frequency of the green light, we use the expression for the relations between wavelength, frequency and speed of light.

[tex]\lambda = \frac{c}{f} \\[/tex]

Where [tex]\lambda[/tex] is wavelength, f is frequency and c is speed constant ([tex]3* 10^8m/s[/tex])

We substitute the values into the equation

[tex]5.20*10^{-7}m = \frac{3*10^8m/s^}{f} \\\\f = \frac{3*10^8m/s^}{5.20*10^{-7}m}\\\\f = 5.77 * 10^{14}s^{-1}\\\\f = 5.77 * 10^{14}Hz[/tex]

Therefore, the frequency of the green light from the traffic signal is 5.77 × 10¹⁴ Hertz.

Learn more: https://brainly.com/question/19240608

A rifle with a weight of 25 N fires a 4.0 g bullet with a speed of 290 m/s.
(a) Find the recoil speed of the rifle.
Your response is off by a multiple of ten. m/s
(b) If a 750 N man holds the rifle firmly against his shoulder, find the recoil speed of the man and rifle.
m/s

Answers

Answer:

Explanation:

Given

Weight of rifle [tex]W=25\ N[/tex]

mass of rifle [tex]M=\frac{25}{10}=2.5\ kg[/tex]

mass of bullet [tex]m=4\ gm[/tex]

speed of bullet [tex]u=290\ m/s[/tex]

As there is no net force on the bullet-rifle system therefore momentum is conserved

[tex]0=Mv+mu[/tex]

[tex]v=-\frac{mu}{M}[/tex]

[tex]v=-\frac{4\times 10^{-3}\times 290}{2.5}[/tex]

[tex]v=-0.464\ m/s[/tex]

i.e. opposite to the direction of bullet speed

(b)Weight of Man [tex]=750\ N[/tex]

Combined weight of man and rifle[tex]=750+25=775\ N[/tex]

mass of man-rifle system [tex]M'=\frac{775}{10}=77.5\ kg[/tex]

Now man and rifle combinedly recoil

therefore

[tex]0=(M')v '+mu [/tex]

[tex]v'=-\frac{mu}{M'}[/tex]

[tex]v'=-\frac{4\times 10^{-3}\times 290}{77.5}[/tex]

[tex]v'=0.0149\ m/s[/tex]

A car went 60 km in 5/6 of an hour while a second car went 54 km in 2/3h. Which car was faster? How many times faster?

Answers

Answer:

The car that went 54 km in 2/3h was faster, 5/4 times faster than the other car

Explanation:

Average speed of a car is the ratio between the displacement [tex]\Delta x [/tex] and the time (t) it takes to do that displacement:

[tex]V_{avg}=\frac{\Delta x}{t} [/tex]

So, for the first car:

[tex]V_{avg1}=\frac{60km}{\frac{5h}{6}} =72\frac{km}{h} [/tex] (1)

for the second car we have:

[tex]V_{avg2}=\frac{60km}{\frac{2h}{3}} =90\frac{km}{h} [/tex] (2)

So, the second cart is faster than the first one. To find how many times divide speed 2 by speed 1:

[tex]\frac{90}{72}=\frac{5}{4} [/tex]

A physics student with a stopwatch drops a rock into a very deep well, and measures the time between when he drops the rocks and when he hears the sound of the rock hitting the water below. If the speed of sound is 343 m/s, and the student measures a time of 6.20 s, how deep is the well?

Answers

Answer:

h= 161.06 m

Explanation:

Given that

Speed of the sound ,C= 343 m/s

Total time ,t= 6.2 s

lets take the depth of the well = h

The time taken by stone before striking the water = t₁

we know that

[tex]h=\dfrac{1}{2}gt_1^2[/tex]

[tex]t_1=\sqrt{\dfrac{2h}{g}}[/tex]

The time taken by sound =t₂

[tex]t_2=\dfrac{h}{343}[/tex]

The total time

t = t₁+ t₂

[tex]6.2 = \sqrt{\dfrac{2h}{g}}+\dfrac{h}{343}[/tex]

[tex]6.2 = \sqrt{\dfrac{2h}{9.81}}+\dfrac{h}{343}[/tex]

Now by solving the above equation we get

h= 161.06 m

Therefore the depth of the well will be 161.06 m.

A carnival merry-go-round rotates about a vertical axis at a constant rate. A man standing on the edge has a constant speed of 3.66 m/s and a centripetal acceleration :a of magnitude 1.83 m/s2. Position vector :r locates him relative to the rotation axis. (a) What is the magnitude of :r? What is the direction of :r when :a is di- rected (b) due east and (c) due south?

Answers

Final answer:

The magnitude of the position vector :r is approximately 7.32 m. When the centripetal acceleration is directed due east, :r will also be due east. When the centripetal acceleration is directed due south, :r will also be due south.

Explanation:

The magnitude of the position vector :r can be determined using the equation :a = :v^2 / r where :v is the speed of the man and :a is the centripetal acceleration. Rearranging the equation, we get :r = :v^2 / :a. Substituting the given values, we find :r = (3.66^2) / 1.83 which is approximately 7.32 m.

When the centripetal acceleration is directed due east, the position vector :r will be due east. When the centripetal acceleration is directed due south, the position vector :r will be due south.

Learn more about Position vector :r here:

https://brainly.com/question/33608638

#SP3

Newton's Law of Cooling says that the rate of cooling of an object is proportional to the difference between its own temperature and the temperature of its surrounding. Write a differential equation that expresses Newton's Law of Cooling for this particular situation.

Answers

Answer:

[tex]\frac{dQ}{dt} =-hA\Delta T(t)[/tex]

Explanation:Newton.s law of cooling states that the rate of cooling of an object is proportional to the difference between its own temperatures and temperature of its surroundings. Mathematically,

[tex]\frac{dQ}{dt} =-hA [T(t)-T(s)]\\[/tex]

[tex]\frac{dQ}{dt} =-hA\Delta T(t)[/tex]

where [tex]Q[/tex] is the heat transfer

[tex]h[/tex] is heat transfer coefficient

[tex]A[/tex] is the heat transfer surface area

[tex]T[/tex] is the temperature of the object's surface

[tex]T(s)[/tex] is the temperature of the surroundings

Final answer:

Newton's Law of Cooling can be expressed using a differential equation: dQ/dt = -k(T - Ts).

Explanation:

Newtons's Law of Cooling states that the rate of cooling of an object is proportional to the difference between its temperature and the temperature of its surroundings. In this particular situation, we can express this law using a differential equation:

dQ/dt = -k(T - Ts)

Where:

dQ/dt represents the rate of heat transfer or coolingk is the proportionality constantT is the temperature of the objectTs is the temperature of the surroundings

Technician A says current is the same in each branch of a parallel circuit. Technician B says current is the same everywhere in a series circuit. Who is right?

Answers

Answer:

Technician B

Explanation:

The current amp value at the battery position is the current value. The current is the same everywhere for a series circuit without any connecting points. The current at the position of the battery is the same as in each resistor position.

Final answer:

Technician B is correct: current is the same in all parts of a series circuit. Technician A is incorrect: current divides in the branches of a parallel circuit and is not the same. The sum of branch currents equals the total current in parallel circuits.

Explanation:

Understanding Current in Series and Parallel Circuits

Technician B is correct when they say current is the same everywhere in a series circuit. In a series circuit, there is only one path for the current to flow, thus the current (I) is identical through any component in the series, as stated: I = I1 = I2 = I3. This principle is known as the first principle of series circuits. On the other hand, Technician A is incorrect in suggesting current is the same in each branch of a parallel circuit. In parallel circuits, the current divides at each junction and the total supplied current is the sum of the currents in the various branches.

So, in summary, in a series circuit, the current is constant through all components, and the total voltage drop across all components adds up to the voltage supplied by the source. In a parallel circuit, meanwhile, each resistance experiences the same voltage difference, while the current through each branch may vary depending on the resistance of that branch.

Other Questions
What is the decimal from of 12% PLEASE HELPRead the passage and answer the following question.Antibiotics are drugs used to treat bacterial infections. This class of drug was first developed in the 1920s. At that time, infectious diseases were the leading cause of death worldwide. Within two decades of the introduction of antibiotics, almost every major bacterial disease could be effectively cured with an antibiotic. In the late 1960s, Surgeon General William Stewart reported to Congress that infectious diseases would soon be a thing of the past. Little did he know that the process of natural selection would soon prove his words false.As antibiotics were dispensed for practically every ailment, some bacteria developed mutations that allowed them to become resistant to specific antibiotics. Through natural selection, these bacteria rapidly multiplied and spread, effectively neutralizing the effectiveness of one antibiotic after another. Today, strains of bacteria that cause tuberculosis, staph infections, and other infectious diseases are almost completely untreatable with antibiotics. Experts predict that the problem will continue to grow and can only be held in check by the discovery of new drugs.Using evidence from this passage explain how bacteria provided an example of natural selection. die and pass away Which connecative and which denotative? and why? with exaplination please A company recently announced that it would be going public. The usual suspects, Morgan Stanley, JPMorgan Chase, and Goldman Sachs will be the lead underwriters. The value of the company has been estimated to range from a low of $5billion to a high of $100billion, with $45billion being the most likely value. If there is a 20% chance that the price will be at the low end, a 10% chance that the price will be at the high end, and a 70% chance that the price will be in the middle, what value should the owner expect the company to price at?a. 66.0.b. 49.5.c. 48.0.d. 38.5. You are applying for a job at two companies. Company A offers starting salaries with mu equals =$27,000 and =$3,000. Company B offers starting salaries with =$27,000 and s=$7,000. From which company are you more likely to get an offer of 33,000 ormore? Police often monitor traffic with "K-band" radar guns, which operate in the microwave region at 22.235 GHz (1 GHz = 10 Hz). Find the wavelength (in nm and ) of this radiation. Which of these statements from the advertisement are facts? Check all that apply. Losing weight is easy with Edgozene. You will lose weight and feel healthier if you take Edgozene. You will receive two bottles of Edgozene when you order. Edgozene costs $29.95. You won't eat as much if you take Edgozene. The resurrection fern (Pleopeltis polypodioides) grows on the bark of southern live oak trees (Quercus virginiana). Resurrection ferns that grow on the underside of branches receive less water than those growing on the topside and, therefore, have a fitness of only 0.28. How many of these ferns will be non-reproducing?Select one:a. 52%b. 72%c. 80%d. 28% What is the product of a DNA synthesis reaction? Which best decribes a similarity between power plants that use water as an energy source A bottling plant fills one-gallon jugs with milk. The label on a one gallon jug of milk states that the volume of milk is 128 fluid ounces (fl.oz.) Federal law mandates that the jug must contain no less than the stated volume. The actual amount of milk in the jugs is normally distributed with mean = 129 fl. Oz. and standard deviation = 0.8 fl. Oz. Use this information to answer below questions.1. Find the z-score corresponding to a jug containing 128 fl. Oz. of milk? 2. What is the probability that a randomly selected jug will contain less than 128 fl. Oz. of milk? What is the radius of a circle whose equation is x2 + y2 + 8x - 6y + 21 = 0?units Digoxin is available in a concentration of 0.1 mg/ml. How many ml are required to administer a 75 mcg dose? Joseph McCarthy: successfully uncovered the communist infiltration of the federal government. was hailed as an American hero for his fight against communism. had the full support of the Senate during his anticommunist crusade. was an embarrassment to his party by 1954. successfully uncovered the communist infiltration of the U.S. army. Employee badges are encoded with a private encryption key and specific personal information.The encoding is then used to provide access to the network. Which of the following describes this accesscontrol type?A. SmartcardB. TokenC. Discretionary access controlD. Mandatory access control FLAGPOLE Julie is 6 feet tall. If she stands 15 feet from the flagpole and holds a cardboard square, the edges of the square line up with the top and bottom of the flagpole. Approximate the height of the flagpole A baseball team plays in a stadium that holds 56000 spectators. With the ticket price at $11 the average attendence has been 21000. When the price dropped to $9, the average attendence rose to 28000. Assume that attendence is linearly related to ticket price. (a) Find the demand function, assuming that it is linear.(b) How should ticket prices be set to maximize revenue? the numerator of a fraction is 12 the gcf witch stand for great common factor of the numerator and denominator is 4. what is the denominator How many different ways can 5 baseball players and 4 basketball players be selected from 12 baseball players and 13 basketball players When Sabine set off to climb Mt. Marcy, she had 18 gummi bears in her bag.When she returned to the lodge, she had 6 gummi bears left. How manygummi bears did she eat during her hike?