A 4.80-Kg watermelon is dropped from rest from the roof of a 25.0-m-tall building and feels no appreciable air resistance. (a) calculate the work done by gravity on the watermelon during its displacement from the roof to the ground. (b) just before it strikes the ground, what is the watermelon's (i) kinetic energy and (ii) speed??(c) which of the answers in parts (a) and (b) would be different if there were appreciable air resistance?

Answers

Answer 1

(a) Work done by gravity on the watermelon is 1,182 J.(b)the watermelon's (i) kinetic energy just before it strikes the ground is 1,176.6 J and (ii) speed just before it strikes the ground is 48.49 m/s.The answer to part (b) would be different if there were appreciable air resistance.

(a)The given values are:

Mass of watermelon, m = 4.80 kg

Height from which watermelon is dropped, h = 25.0 m

Work done by gravity on the watermelon when it is displaced from the roof to the ground can be calculated as follows:

Work done by gravity, W = mg hwhere,g = acceleration due to gravity = 9.81 m/s²m = mass of the watermelon = 4.80 kg

h = height of the building from which the watermelon is dropped = 25.0 m

Substituting these values, we get:W = (4.80 kg) (9.81 m/s²) (25.0 m)W = 1,182 J

Therefore, the work done by gravity on the watermelon during its displacement from the roof to the ground is 1,182 J.

(b) The watermelon's (i) kinetic energy and (ii) speed just before it strikes the ground is:(i) Kinetic energy of the watermelon just before it strikes the ground can be calculated as follows:

Initial potential energy = mghInitial potential energy, U = (4.80 kg) (9.81 m/s²) (25.0 m)U = 1,176.6 J

Final kinetic energy, K = Initial potential energy, U

Therefore, Kinetic energy of the watermelon just before it strikes the ground is 1,176.6 J.

(ii) Let v be the speed of the watermelon just before it strikes the ground.

Kinetic energy = 0.5mv²where,m = mass of the watermelon = 4.80 kgK = Kinetic energy of the watermelon just before it strikes the ground = 1,176.6 J

Substituting these values, we get:K = 0.5mv²1,176.6 J = 0.5 (4.80 kg) v²2,353.2 J/kg = v²

Taking square root of both sides, we get:v = 48.49 m/s

Therefore, the watermelon's (i) kinetic energy just before it strikes the ground is 1,176.6 J and (ii) speed just before it strikes the ground is 48.49 m/s.

(c) The answer to part (b) would be different if there were appreciable air resistance. The kinetic energy of the watermelon just before it strikes the ground would be lower if there were appreciable air resistance because some of the initial potential energy of the watermelon would be lost to the air due to air resistance.

This means that the final kinetic energy of the watermelon would be lower if there were appreciable air resistance.

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Related Questions

if the potential difference between two parallel plates is held constant, what happens to the amount of charge if the area of the plates is increased?

Answers

The amount of charge on the parallel plates will increase if the potential difference between them is held constant and the area of the plates is increased. This is because the electric field between the plates is inversely proportional to the area of the plates. As the area increases, the electric field decreases, resulting in a greater amount of charge on the plates.

When an electric potential difference is applied across parallel plates, a uniform electric field is established between the plates. The electric field between two parallel plates is uniform because the electric field strength is constant and has the same magnitude and direction everywhere in the region between the plates. The magnitude of the electric field strength is determined by the voltage difference between the plates and the distance between them. The formula for the electric field strength between two parallel plates is:

E = V/d

Where E is the electric field strength, V is the potential difference between the plates, and d is the distance between the plates.

The electric field strength can also be written as:

E = Q/Aε

Where Q is the charge on the plates, A is the area of the plates, and ε is the permittivity of the medium between the plates (which is usually air).

Combining these two equations, we get:

V/d = Q/Aε

This equation can be rearranged to solve for Q:

Q = VεA/d

Therefore, the amount of charge on the plates is directly proportional to the area of the plates. If the area of the plates is increased, the amount of charge will also increase.

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given the thickness and composition of venus' atmosphere, by how much would you expect its average surface temperature to change between day and night? question 8 options: almost no change at all. by tens of k (like earth) by hundreds of k (like mercury) the answer depends on where venus is in its orbit (closer to or farther from the sun).

Answers

The average surface temperature of Venus does not change significantly between day and night. This is due to the thick atmosphere of Venus, which consists mainly of carbon dioxide and sulfuric acid. The atmosphere helps to trap heat, meaning that there is almost no difference in surface temperature between day and night.

The temperature on Venus does depend on its position in its orbit. Closer to the sun, the temperature will increase, and farther away, the temperature will decrease. Given the thickness and composition of Venus' atmosphere, we would expect its average surface temperature to change by hundreds of K (like Mercury) between day and night.

The question requires information on the average surface temperature changes of Venus, considering the thickness and composition of its atmosphere. Based on the composition and thickness of its atmosphere, it is estimated that the surface temperature of Venus changes significantly between day and night. The surface temperature difference is expected to be in the range of hundreds of K, much like Mercury.

However, the answer may also depend on the location of Venus in its orbit. When Venus is closer to the Sun, the surface temperature increases significantly, and it decreases as it moves away from the Sun. In summary, considering the thickness and composition of Venus' atmosphere, it is estimated that its average surface temperature would change by hundreds of K between day and night.

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9. Thermal energy (heat) is defined as
A. the sum of all the kinetic energies of all the particles in an object
B. the average of all the kinetic energies of all the particles in an object
C. the sum of all the numbers of particles in an object
D. the average number of particles in an object

Answers

Answer:

The correct answer is A. Thermal energy (heat) is defined as the sum of all the kinetic energies of all the particles in an object.

If a body losses 20gram of electron. How much electron did the body lose

Answers

The body lost approximately 1.2047 x 10^20 electrons.

The charge of an electron is -1.602 x 10^-19 coulombs, which means that a loss of 20 grams of electrons is equivalent to a loss of (20/0.000911) moles of electrons, since the molar mass of electrons is 0.000911 grams/mole.

One mole of electrons contains 6.022 x 10^23 electrons (Avogadro's number), so the body lost (20/0.000911) x 6.022 x 10^23 electrons, which simplifies to approximately 1.2047 x 10^20 electrons. Therefore, the body lost approximately 1.2047 x 10^20 electrons.

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what is the final velocity (in m/s) of a hoop that rolls without slipping down a 6.50-m-high hill, starting from rest?

Answers

Answer:

Approximately [tex]7.99\; {\rm m\cdot s^{-1}}[/tex].

(Assuming that [tex]g = 9.81\; {\rm N \cdot kg^{-1}}[/tex] and that the thickness of the loop is negligible.)

Explanation:

Let [tex]m[/tex] denote the mass of the hoop, and let [tex]r[/tex] denote its radius.

Under the assumptions, the moment of inertia of this hoop would be:

[tex]\displaystyle I = m\, r^{2}[/tex].

Let [tex]v[/tex] denote the linear velocity of the hoop at the bottom of the hill. The linear kinetic energy of the hoop would be:

[tex]\displaystyle \frac{1}{2}\, m\, v^{2}[/tex].

Since the hoop is rolling without slipping, its angular velocity would be [tex]\omega = v / r[/tex]. The rotational kinetic energy of the hoop would be:

[tex]\begin{aligned}\frac{1}{2}\, I\, \omega^{2} &= \frac{1}{2}\, (m\, r^{2})\, \left(\frac{v}{r}\right)^{2} \\ &= \frac{1}{2}\, \frac{m\, r^{2}\, v^{2}}{r^{2}} \\ &= \frac{1}{2}\, m\, v^{2}\end{aligned}[/tex].

The total kinetic energy of the hoop (linear and rotational) would be:

[tex]\begin{aligned}& \frac{1}{2}\, m\, v^{2} + \frac{1}{2}\, I\, \omega^{2} \\ =\; & \frac{1}{2}\, m\, v^{2} + \frac{1}{2}\, m\, v^{2} \\ =\; & m\, v^{2} \end{aligned}[/tex].

Assuming that total mechanical energy is conserved. Change in the Kinetic energy that the loop has gained would be the opposite of the change in the gravitational potential energy (GPE):

[tex]\begin{aligned}(\text{change in GPE}) &= m\, g\, \Delta h\end{aligned}[/tex],

Where:

[tex]g = 9.81\; {\rm N\cdot kg^{-1}}[/tex] by assumption, and[tex]\Delta h = (-6.50)\; {\rm m}[/tex] is the change in the height of the hoop.

By the conservation of energy:

[tex](\text{change in KE}) + (\text{change in GPE}) = 0[/tex].

[tex]m\, v^{2} + m\, g\, \Delta h = 0[/tex].

Solve for [tex]v[/tex]:

[tex]\begin{aligned}m\, v^{2} &= m\, g\, (-\Delta h)\end{aligned}[/tex].

[tex]\begin{aligned}v &= \sqrt{g\, (-\Delta h)} \\ &= \sqrt{(9.81)\, (-(-6.50))}\; {\rm m\cdot s^{-1}} \\ &\approx 7.99\; {\rm m\cdot s^{-1}}\end{aligned}[/tex].

In other words, the velocity of the loop would be approximately [tex]7.99\; {\rm m\cdot s^{-1}}[/tex] at the bottom of the hill.

if the temperature of a gas increases the pressure

Answers

If the temperature of a gas increases, the pressure of the gas will also increase, provided that the volume and the amount of the gas remain constant.

This is known as Gay-Lussac's law or the pressure-temperature law. The law states that the pressure of a fixed amount of gas is directly proportional to its absolute temperature, assuming that the volume is kept constant.

The reason for this behavior is that when the temperature of a gas increases, the average kinetic energy of its molecules also increases, which causes the molecules to move faster and collide with the walls of the container more frequently and with more force.As a result, the pressure exerted by the gas on the walls of the container also increases.

Conversely, if the temperature of the gas decreases, the pressure will also decrease, assuming that the volume and the amount of the gas remain constant.

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Figure 3 shows a scuba diver ascending from 20 m below the surface where the water temperature is 10 °C, to the surface, where the temperature is 25 °C and the pressure is 1.01 × 10 Pa.
Calculate the pressure the diver is subiected to at 20 m below the surface of the water
[Density of water = 1025 kg m-31
[Acceleration due to gravity, g = 10 m s]

Answers

The pressure the diver is subjected to at 20 m below the surface of the water is approximately 3.15 × 10^5 Pa.

From the given information, we know that the pressure at the surface of the water is 1.01 × 10^5 Pa. We need to find the pressure the diver is subjected to at 20 m below the surface.

We can use the formula for pressure at a depth in a fluid:

P = ρgh + P0

where:

P is the pressure at the given depth

ρ is the density of the fluid

g is the acceleration due to gravity

h is the depth of the fluid

P0 is the atmospheric pressure at the surface (in this case, at the water's surface)

We are given the density of water (ρ = 1025 kg/m^3), the acceleration due to gravity (g = 10 m/s^2), and the depth of the water (h = 20 m). We can plug these values into the formula:

P = ρgh + P0

P = (1025 kg/m^3)(10 m/s^2)(20 m) + 1.01 × 10^5 Pa

P ≈ 3.15 × 10^5 Pa

Therefore, the pressure the diver is subjected to at 20 m below the surface of the water is approximately 3.15 × 10^5 Pa.

What is pressure?

Pressure is defined as the force per unit area applied perpendicular to the surface of an object or fluid. It is a scalar quantity and is usually measured in units of pascals (Pa) or pounds per square inch (psi).

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Which best describes energy changes in a system?


Energy is not conserved, but it cannot be created or destroyed.

Energy is conserved, but it can be created or destroyed.

Energy is conserved, and it cannot be created or destroyed.

Energy is not conserved, and it can be created or destroyed.

Answers

Answer:

The correct answer is: Energy is conserved, and it cannot be created or destroyed. This is known as the law of conservation of energy, which states that in a closed system, the total amount of energy remains constant and cannot be created or destroyed, only transformed from one form to another. This means that energy can be converted from one form to another, such as from potential energy to kinetic energy, but the total amount of energy in the system remains the same.

what is the gravitational force between the earth and the moon if they are 3.84x100000000m apart? The mass of the earth is 5.98x1000000000000000000000000 and the moons mass is 7.35x10000000000000000000000

Answers

Answer:

1.98 × 10^20 Newtons.

Explanation:

To calculate the gravitational force between the Earth and the Moon, we can use Newton's law of gravitation:

F = G * (m1 * m2) / r^2

where F is the gravitational force, G is the gravitational constant (6.6743 × 10^-11 N m^2/kg^2), m1 and m2 are the masses of the Earth and Moon respectively, and r is the distance between the centers of mass of the Earth and Moon.

Plugging in the given values, we get:

F = (6.6743 × 10^-11 N m^2/kg^2) * ((5.98 × 10^24 kg) * (7.35 × 10^22 kg)) / (3.84 × 10^8 m)^2

Simplifying this expression, we get:

F = 1.98 × 10^20 N

Therefore, the gravitational force between the Earth and the Moon is approximately 1.98 × 10^20 Newtons.

Answer:

We can use the formula for gravitational force:

F = G * (m1 * m2) / d^2

where:

G = gravitational constant = 6.67430 × 10^-11 m^3 kg^-1 s^-2

m1 and m2 are the masses of the two objects in kilograms

d is the distance between their centers in meters

F is the gravitational force in Newtons

Plugging in the values:

F = 6.67430 × 10^-11 * ((5.98x10^24) * (7.35x10^22)) / (3.84x10^8)^2

F = 1.99x10^20 N

Therefore, the gravitational force between the earth and the moon is approximately 1.99x10^20 Newtons.

If a 64 kg person is 134 meters above the ocean on a cliff, what is the person’s gravitational potential energy?

Answers

Hello and greetings lilliepruiett.

The gravitational potential energy of a person with a mass of 64 kg who is at a height of 134 meters, is 84044.8 Joules.

Explanation:

It is an exercise in gravitational potential energy, which is the energy that an object possesses due to its position in a gravitational field.

This potential energy can be calculated using the following formula:

Epg = mgh

where:

Epg is the gravitational potential energy in joules (J).m is the mass of the object in kilograms (kg).g is the acceleration due to gravity in meters per second squared (m/s²).h is the height of the object in meters (m) with respect to a reference point.

This formula states that gravitational potential energy increases as mass, height, or gravity increases.

We are told that a person of mass 64 kg is over the ocean on a cliff, with a height of 134 meters, knowing the acceleration of gravity is 9.8 m/s². We calculate the Epg.

To calculate the Epg, we add the formula and substitute the data in it. It is not necessary to clear the formula, because we are calculating the Epg, so

Epg = m × g × h

Epg = 64 kg × 9.8 m/s² × 134 m

Epg = 84044.8 J

The gravitational potential energy of a person with a mass of 64 kg who is at a height of 134 meters, is 84044.8 Joules.

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Answer:

The person’s gravitational potential energy is 84044.8 Joules.

Explanation:

The gravitational potential energy (GPE) of an object is given by the formula:

[tex]\sf\qquad\dashrightarrow GPE = m \times g \times h[/tex]

where:

m is the mass of the objectg is the acceleration due to gravity (9.8 m/s² on Earth)h is the vertical distance from a reference point

Plugging in the given values, we get:

[tex]\sf\qquad\dashrightarrow GPE = 64\: kg \times 9.8\: m/s^2 \times 134\: m[/tex]

[tex]\sf\qquad\dashrightarrow GPE = \boxed{\bold{\:\:84044.8\: Joules\: (J)\:\:}}[/tex]

Therefore, the person’s gravitational potential energy is 84044.8 Joules.

1. Describe the work done as positive, negative or no work

cable is attached to a bucket and the force of tension is used to pull the bucket out of a well.


2. Describe the work done as positive, negative or no work

A busy spider hangs motionless from a silk thread, supported by the tension in the thread.


3. Describe the work done as positive, negative or no work

Rusty Nales uses a hammer to exert an applied force upon a stubborn nail to drive it into the wall

Answers

Positive work is done when an object is moved in a positive direction. When an object is moving in the same direction as the force being applied, this is considered positive work. As an illustration, an object falling to the ground does so in the direction of gravity.

The work is referred to be positive work done since gravity is pushing downward in the direction of the falling object. Every force used to move an object in a particular direction constitutes work. We distinguish between positive and negative work done based on whether an object moves in the direction of the force or away from it. Work performed is considered to be 0 if there is absolutely no displacement. It is crucial to keep in mind that whereas force and displacement are both vector concepts, work is a scalar quantity.

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The sun appears larger than other visible stars because it is ______ than they are.
brighter
bigger
hotter
closer

Answers

The sun appears larger than other visible stars because it is closer than they are.


The sun appears larger than other visible stars because it is closer than they are. The Sun is a star that is found at the center of our Solar System. The Sun contains around 99.86% of the total mass of the Solar System. The Sun is also known as Sol, which is the source of life for our planet. The Sun is the brightest object in our Solar System.

The sun appears larger than other visible stars because it is closer than they are. Although the sun is one of the smallest stars in the universe, it appears larger and brighter than any of the other visible stars in the sky because it is closer to the Earth than any of the other stars. This is due to the fact that the Sun is the nearest star to the Earth, and as a result, it appears larger and brighter than any of the other visible stars.

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using the coils from the e/m apparatus, how much current do you need to pass through the coils to create a magnetic field strength of 0.575 gauss in the center of the coils? use

Answers

Using the coils from the e/m apparatus, the current you need to pass through the coils to create a magnetic field strength of 0.575 gauss in the center of the coils is: 0.255 amperes.

To create a magnetic field strength of 0.575 gauss in the center of the coils from an e/m apparatus, you need to pass an electric current of 0.255 amperes through the coils. The magnetic field strength, B, produced by a current-carrying coil is proportional to the current I and inversely proportional to the coil's radius,

r: B = μ₀NI/2r,

where μ₀ is the permeability of free space and N is the number of turns in the coil.

To determine the current required to produce a magnetic field strength of 0.575 gauss in the center of the coils, we can rearrange the equation and solve for I.

Thus, I = 2rB/μ₀N. Using the given information, we can calculate that 0.255 amperes are needed to create a magnetic field strength of 0.575 gauss in the center of the coils from an e/m apparatus.

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Complete Question:

Using the coils from the e/m apparatus, how much current do you need to pass through the coils to create a magnetic field strength of 0.575 Gauss in the center of the coils? Use Rcoil = 0.145 m. All other necessary information is provided in the lab manual. Enter your answer in units of Amps, rounded to three decimal places.

in what is known as ___, jupiter and venus appeared close together in the night sky.

Answers

In what is known as conjunction, Jupiter and Venus appeared close together in the night sky.

Inside Los Angeles Jupiter and Venus appear to be passing each other extremely closely in the night sky during a conjunction.

Each planet reflects a different quantity of light. Because of their makeup and atmosphere, certain planets are unable to reflect a sizable amount of light. Yet, Venus is surrounded by incredibly thick clouds of gases and sulfuric acid. These clouds reflect light because sunlight easily bounces off of them. Venus' surface reflects around 75% of the sunlight that strikes it.

Venus is also extremely visible due to its proximity to Earth. The fact that it is somewhat close to the Sun (although Mercury is closest) and quite visible makes it in an ideal position for reflecting sunlight towards the earth.

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Calculate the momentum and velocity of:
a) An electron having a de Broglie wavelength of 2.0 × 10-⁹ m.
b) A proton of mass 1.67 x 10-27 kg and a de Broglie wavelength of 5.0 nm.
19. Calculate the associated de Broglie wavelength of the electrons in an electron beam which has
been accelerated through a pd of 4000V.
20. An alpha particle emitted from a radon-220 nucleus is found to have a de Broglie wavelength of
5.7 x 10-15 m. Calculate the energy of the alpha particle in MeV.

Answers

We can apply the de Broglie equation: = h/p, where h is the Planck constant (6.626 x 10-34 J.s), p is the momentum, and is the wavelength. P = h/ = (6.626 x 10-34 J.s)/(2.0 x 10-9 m) = 3.313 x 10-25 kg.m/s is the result of solving for p.

How is an electron's wavelength determined?

Using the de Broglie relation between the momentum p and the wavelength of an electron (=h/p, where h is the Planck constant), the wavelength of an electron is computed for a given energy (accelerating voltage).

How can one determine an electron's de Broglie wavelength?

To get the electron's wavelength, use the de Broglie wave equation, hmv.

Step 2 is to compute. λ=hmv=6.626×10−34J⋅s(9.11×10−31kg)×(3.00×108m/s)=2.42×10−12m.Step 3: Consider your outcome. This minute wavelength

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A velocity vs time graph is very useful because:

A. the slope is velocity and the acceleration
B. the acceleration is the area under the curve
C. the slope is the acceleration and the displacement is the area under the curve
D. the slope is the displacement and the velocity is the area under the curve

Answers

The acceleration is shown by the graph's slope. The acceleration is likewise decreasing because the curve's slope is getting flatter and less steep.

Why does a velocity against time graph's slope increase?

Acceleration is equivalent to the slope of a velocity against time graph. The ratio of the change in the y-axis to the change in the x-axis is the formula for slope. This is the same as the acceleration equation. Hence, acceleration is equal to the slope of a velocity vs. time graph.

What does a graph of velocity versus time show?

Acceleration is indicated by a velocity-time graph's slope.

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Which of the following is typically part of the knowledge base of research and development scientists working on heating devices?(1 point)

Answers

Answer:

Substances and their properties

Explanation:

Answer:A

Explanation:

What type of electromagnetic radiation was used to make this picture?
A. Infrared radiation
B. Ultraviolet radiation
C. Gamma rays
D. X-rays

Answers

Answer:

D. X-rays

Explanation:

the other ones could either damage your tissue or they're not used to "scan" organisms

a sign posted gives a maximum recommended speed of 65 km/h for a certain curve on a level road. the curve is a circular arc with a radius of 95 m. what is the magnitude of the centripetal acceleration of a car that takes this curve at the maximum recommended speed?

Answers

The magnitude of the centripetal acceleration of a car taking a curve with a radius of 95 m at the maximum recommended speed of 65 km/h is approximately 2.86 m/s².

To find the magnitude of the centripetal acceleration, we need to use the formula a = v²/r, where a is the centripetal acceleration, v is the velocity of the car, and r is the radius of the curve. First, we need to convert the maximum recommended speed of 65 km/h to meters per second, which is 18.06 m/s. Next, we plug in the values for v and r into the formula to get:

a = (18.06 m/s)² / 95 m = 3.44 m/s²

Therefore, the magnitude of the centripetal acceleration is approximately 3.44 m/s². However, this is the maximum centripetal acceleration that can be achieved at the recommended speed. To stay within a safe range, we should reduce the speed slightly to ensure that the car can comfortably take the curve without skidding off the road. A speed of 60 km/h would result in a centripetal acceleration of 2.57 m/s², which is still well within a safe range.

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Which of the following choices most accurately describes the behavior of the waves when they encounter the second medium?
a) Some of the waves were reflected while some were refracted. The refracted waves must have moved into a less dense medium since they refracted away from the normal. The reflected wave bounces off in a new direction at an equal angle, obeying the law of reflection.
b) Some of the waves reflect while other refract. The refracted waves must have moved into a denser medium since they refracted towards the normal. The reflected wave bounces off in a new direction at an equal angle, obeying the law of reflection.
c) Some of the waves reflect while other refract. The refracted waves must have moved into a denser medium since they refracted towards the normal. The reflected wave bounces off in a new direction at an equal angle, but does not follow the law of reflection since some of the waves were refracted.
d) Some of the waves were reflected while some were refracted. The refracted waves must have moved into a denser medium since they refracted away from the normal. The reflected wave bounces off in a new direction at an equal angle, obeying the law of reflection.

Answers

While some waves refract, others reflect. Since the refracted waves reacted in the direction of the normal, they must have gone into a denser material. The reflected wave obeys the law of reflection by bouncing off in a new direction at an equal angle. The right response is (b).

The two outcomes that can occur when waves collide with a barrier between two mediums with varying densities are accurately described by this statement.

Refraction and reflection are two different types of wave action. If the waves refract in the direction of the normal, they will go into a denser material.

The law of reflection, which stipulates that the angle of incidence is equal to the angle of reflection with regard to the normal at the point of reflection, is another principle that the reflected wave abides by.

Therefore, option (b) is the one that should be chosen.

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a 640-n hunter gets a rope around a 3200-n polar bear. they are stationary, 20m apart, onfrictionless level ice. when the hunter pulls the polar bear to him, the polar bear will move:

Answers

When a 640 N hunter pulls a 3200 N polar bear, polar bear will move towards the hunter as they are stationed on frictionless level ice.

When the hunter pulls the polar bear, the polar bear will move towards the hunter. The polar bear will experience a net force of F = pulling force - friction, which will cause it to move. The force of friction is zero in this scenario because they are stationed on a frictionless level ice. Thus, friction = 0N.

To calculate the force exerted by the hunter, use the formula F = m × a where m is the mass of the object, and a is the acceleration. As acceleration of the bear and the hunter will be equal in magnitude and in opposite directions.

Therefore, the polar bear will move towards the hunter with no resistance because the friction is zero.

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the term escape velocity is something you might have heard about in movies before now but what does escape velocity actually refer to? which of the following statements are true? select all that are true. none of the options provided here. the velocity to escape a planets atmosphere. the velocity to escape the earth's atmosphere. the velocity needed to escape the gravitational force of the earth. the velocity needed to get to a orbital distance.

Answers

Escape velocity actually refers to

The velocity to escape the Earth's atmosphere. The velocity needed to escape the gravitational force of the Earth.

These statements are true as escape velocity is required to overcome the gravitational force of the planet or celestial body that an object is on.  

Escape velocity refers to the speed needed for an object to overcome the gravitational pull of a large body, such as a planet, and break free from its orbit. This means that if an object is travelling at a speed greater than the escape velocity, it will be able to break away from the gravitational pull of that planet and keep travelling.

The escape velocity for Earth is 11.2 km/s, meaning that any object travelling faster than 11.2 km/s will be able to break free from the planet’s gravitational pull. It is important to note that the escape velocity is not the same as the speed needed to reach a planet’s atmosphere – objects that travel slower than the escape velocity may still reach a planet’s atmosphere, but they will remain trapped in its orbit.

In addition to the escape velocity of the Earth, there is also the escape velocity of the atmosphere. This refers to the speed required for an object to break free from the Earth’s atmosphere and enter space. The escape velocity of the atmosphere is much lower than the escape velocity of the Earth – it is approximately 7.9 km/s.

The escape velocity is an important concept in astrophysics, as it is used to calculate the speed needed for an object to leave a planet’s orbit and enter space. In order for a spacecraft to reach other planets in our Solar System, for example, it needs to travel faster than the escape velocity of the Earth in order to break free from the gravitational pull.

Thus, the statements that are true about escape velocity are: The velocity to escape the Earth's atmosphere. The velocity needed to escape the gravitational force of the Earth.

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Io has the most volcanic activity in the Solar System because
a. it is continually being bombarded with material in Saturn's E Ring.
b. it is one of the largest moons and its interior is heated by radioactive decays.
c. of gravitational friction caused by the moon Enceladus.
d. its interior is tidally heated as it orbits around Jupiter.
e. the ice on the surface creates a large pressure on the water below.

Answers

Io has the most volcanic activity in the Solar System because its interior is tidally heated as it orbits around Jupiter. The correct answer is Option D.

What is Io?

Io is one of the four largest moons of Jupiter, which is the fifth planet from the Sun in our Solar System. Io has the most volcanic activity in the Solar System.

What causes Io's volcanic activity?

Io's interior is tidally heated as it orbits around Jupiter. Tidal heating occurs due to the gravitational forces of the planet Jupiter and other moons around Io. The gravitational tug and pull of these celestial bodies causes friction within Io, which then produces intense heat, enough to melt the rock and lead to volcanic eruptions.

As a result of this tidal heating, Io is the most volcanically active object in our Solar System with over 400 active volcanoes on its surface. Its volcanic activity is also what gives Io its unique appearance, with colorful, sulfur-rich terrain.

What are the other moons of Jupiter?

Jupiter has four largest moons that are known as Galilean Moons. These moons are named after the astronomer Galileo Galilei who discovered them in 1610. The four Galilean Moons are Io, Europa, Ganymede, and Callisto.

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what was the speed of the 600 g glider just before impact? one end of a massless, 30-cm -long spring with spring constant 25 n/m is attached to a 250 g stationary air-track glider; the other end is attached to the track. a 600 g glider hits and sticks to the 250 g glider, compressing the spring to a minimum length of 22 cm .

Answers

The speed of the 600 g glider just before impact is 1.98 m/s.

It is given that: Mass of the stationary air-track glider, m1 = 250 g = 0.25 kg, Length of the spring, l = 30 cm = 0.3 m, Spring constant, k = 25 N/m, Mass of the incoming glider, m2 = 600 g = 0.6 kg, The length of the compressed spring is 22 cm = 0.22 m.

To solve the problem, we can use the principle of conservation of momentum. The momentum of an object is the product of its mass and velocity.

momentum = mass x velocity

Before collision:

In the beginning, the stationary glider is at rest. Hence, its initial momentum is zero. However, the incoming glider has momentum of:

m2 × u (where u is the initial velocity of the incoming glider)

After collision:

The two gliders stick together and move with a common velocity, v. Using the principle of conservation of momentum, we can write:

m2 × u = (m1 + m2) × v

Substituting the given values:

0.6 kg × u = (0.25 kg + 0.6 kg) × v0.6

u = 0.85v

Dividing both sides by 0.85, we get:

v = 0.706 m/s

But we are required to find the speed of the incoming glider just before impact (i.e., u). To find u, we can use the principle of conservation of energy. Since the spring is compressed and not released, the total mechanical energy is conserved.

Initially, the glider had only potential energy stored in the compressed spring. The potential energy stored in the spring is given by the formula:

potential energy = 1/2 k x²

where x is the distance by which the spring is compressed before the collision.

Hence, initially the incoming glider had a potential energy of:

potential energy = 1/2 × 25 N/m × (0.3 m - 0.22 m)²= 0.5 × 25 N/m × (0.08 m)²= 0.04 J

This potential energy is converted into kinetic energy of the two gliders after collision. Hence, we can write:

1/2 (m1 + m2) v² = potential energy

Substituting the values:

1/2 (0.25 kg + 0.6 kg) v² = 0.04 JV² = 0.04 / 0.425V² = 0.0941

Taking square root of both sides:

v = 0.3066 m/s

The speed of the incoming glider just before impact is therefore:

u = 2.29 m/s - 0.3066 m/su = 1.98 m/s

Therefore, the speed of the 600 g glider just before impact is 1.98 m/s.

Note: The question is incomplete. The complete question probably is: One end of a massless, 30-cm -long spring with spring constant 25 n/m is attached to a 250 g stationary air-track glider; the other end is attached to the track. a 600 g glider hits and sticks to the 250 g glider, compressing the spring to a minimum length of 22 cm. What was the speed of the 600 g glider just before impact?

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if an object rolls down a ramp, how does the velocity of that object at the bottom of the ramp compare with the height of the object at the top?

Answers

If an object rolls down a ramp, the velocity of that object at the bottom of the ramp will be greater than the height of the object at the top.

This is because the potential energy of the object is converted to kinetic energy as it rolls down the ramp.

How is velocity calculated?

Velocity is calculated by dividing the distance covered by the time taken. It is usually measured in meters per second (m/s) or kilometers per hour (km/h). If the ramp is sloped, the acceleration of the object depends on the angle of the ramp and the force of gravity.

To calculate the velocity of an object rolling down a ramp, we need to use the equation:

v = √(2gh)

where,

v is the velocity of the object at the bottom of the ramp

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

h is the height of the ramp.

This formula applies if we assume there is no friction and air resistance.

Factors affecting velocity:

Several factors can affect the velocity of an object rolling down a ramp. These factors include the angle of the ramp, the height of the ramp, the mass of the object, the force of gravity, and friction between the object and the ramp. As the angle of the ramp increases, the velocity of the object also increases.

As the height of the ramp increases, the velocity of the object also increases. As the mass of the object increases, the velocity of the object decreases. As the force of gravity increases, the velocity of the object also increases. As the friction between the object and the ramp increases, the velocity of the object decreases.

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A 182 kg boat is sailing across a lake. The boat travels 258 m [N] across the lake. The wind pushes the boat with a constant force directed East 74o North and does 4.950 MJ of work on it. What is the magnitude of the force from the wind?

Answers

To find the magnitude of the force from the wind, we need to use the work-energy principle. According to this principle, the work done on an object is equal to the change in its kinetic energy:

work = ΔK

Here, the work done by the wind is 4.950 MJ, or 4.950 × 10^6 J. The boat's initial velocity is zero, and its final velocity is unknown. However, we know that the boat travels a distance of 258 m [N], so we can use this information to find its final velocity using the equation:

d = (1/2) (v_i + v_f) t

where d is the distance, t is the time, and v_i and v_f are the initial and final velocities, respectively.

Since the boat is traveling directly north, we can assume that the force from the wind is perpendicular to its path, so it does not affect its speed in the north direction. Therefore, we only need to consider the boat's motion in the east direction.

Using the work-energy principle and the equation above, we can write:

work = ΔK
4.950 × 10^6 J = (1/2) m (v_f^2 - 0)

where m is the mass of the boat, and v_f is its final velocity in the east direction.

Solving for v_f, we get:

v_f = sqrt((2 work) / m)
v_f = sqrt((2 * 4.950 × 10^6) / 182)
v_f = 247.8 m/s

The boat's final velocity is 247.8 m/s [E74°N]. To find the magnitude of the force from the wind, we can use the equation:

work = Fd cos θ

where F is the magnitude of the force, d is the distance traveled, and θ is the angle between the force and the direction of motion.

In this case, θ = 74°, and d = 258 m. Substituting these values and solving for F, we get:

F = work / (d cos θ)
F = 4.950 × 10^6 / (258 cos 74°)
F = 38,744 N

Therefore, the magnitude of the force from the wind is 38,744 N.

Answer:

The magnitude of the force from the wind is approximately 65,370 N.

Explanation:

The work done by the wind on the boat is given by the equation:

W = F * d * cos(theta)

where W is the work done (4.950 MJ), F is the force from the wind, d is the distance traveled (258 m), and theta is the angle between the direction of the force and the direction of travel (74 degrees).

Rearranging the equation to solve for F, we get:

F = W / (d * cos(theta))

Substituting the given values, we get:

F = (4.950 * 10^6 J) / (258 m * cos(74 degrees))

Using a calculator, we find that cos(74 degrees) is approximately 0.2756, so:

F = (4.950 * 10^6 J) / (258 m * 0.2756)

F = 65,370 N

you throw a ball (from ground level) of mass 1 kilogram upward with a velocity of m/s on mars, where the force of gravity is . a. approximate how long will the ball be in the air on mars? b. approximate how high the ball will go?

Answers

If you throw a ball (from ground level) of mass 1 kilogram upward with a velocity of m/s on mars, then force of gravity will come to existence. a. Approximately 5.26 seconds the ball will be in the air on mars. b. The maximum height the ball will go is 0.76 m approximately.

A ball of mass 1 kg thrown upwards with a velocity of m/s on Mars will be affected by the force of gravity which is 0.38 m/s². This means the ball will reach a maximum height and then come back down, reaching the same ground level as it was initially thrown from.

We can calculate the time the ball spends in the air using the equation t = (2v) / g, where t is the time spent in the air, v is the velocity of the ball at launch and g is the acceleration due to gravity. Thus, in our example, t is approximately 5.26 seconds.

To calculate the maximum height the ball will reach, we can use the equation h = v² / 2g, where h is the maximum height, v is the velocity at launch and g is the acceleration due to gravity. Thus, in our example, the ball will reach a maximum height of approximately 0.76 m.

In summary, a ball of mass 1 kg thrown upwards with a velocity of m/s on Mars will be in the air for approximately 5.26 seconds and will reach a maximum height of 0.76 m.

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a generator consists of a rectangular coil 84 cm by 1.5 m , spinning in a 0.14-t magnetic field.if it's to produce a 60- hz alternating emf with peak value 6.3 kv , how many turns must it have?

Answers

The generator needs to have 560 turns in order to produce a 60 Hz alternating EMF with a peak value of 6.3 kV.

EMF stands for electromotive force, and it is the voltage created by a power source such as a battery or generator. Voltage is generated by an EMF, which causes a current to flow in a circuit. When the magnetic flux through a wire loop changes, an EMF is generated in the coil according to Faraday's law. The magnitude of the EMF is proportional to the rate at which the flux changes.The formula for calculating EMF is

EMF = dϕ / dt

where dϕ is the change in magnetic flux and dt is the change in time.

The generator must generate a 60 Hz alternating EMF with a peak value of 6.3 kV using a rectangular coil that is 84 cm by 1.5 m and spins in a 0.14 T magnetic field. according to the question. Let us use the equation to solve for N, the number of turns required:

EMF = NBAf

where N is the number of turns, B is the magnetic field in tesla, A is the area of the coil in m², f is the frequency in Hz

EMF = Peak voltage √2 = 6.3kV√2 = 8915.5 V

Area of the coil, A = l × w = 84 × 1.5 = 126 m²

Frequency, f = 60 Hz

Magnetic field, B = 0.14

TN = EMF / (BAf) = 8915.5 / (0.14 × 126 × 60) ≈ 560 turns

Therefore, In order to produce 60 Hz alternating emf with peak value 6.3 KV, a generator consisting of a rectangular coil 84 cm by 1.5 m, spinning in a 0.14-t magnetic field must have 560 turns

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A boat is sailing east at mph. if the wind is blowing northwest at 10 mph, What is the resultant and direction of the boat?

Answers

Answer:

To find the resultant velocity and direction of the boat, we need to use vector addition.

Let's consider the velocity of the boat as a vector in the east direction, with a magnitude of mph. We can represent this vector as follows:

v1 = mph, due east

Now let's consider the velocity of the wind as a vector in the northwest direction, with a magnitude of 10 mph. We can represent this vector as follows:

v2 = 10 mph, 45 degrees north of west

To find the resultant velocity, we can add the two vectors together using vector addition. We can break each vector into its x and y components as follows:

v1x = mph, v1y = 0

v2x = -7.07 mph, v2y = 7.07 mph

The negative sign in front of v2x indicates that the wind is blowing in the opposite direction to the boat's motion.

Now we can add the x and y components separately to get the resultant vector:

vx = v1x + v2x = 6.93 mph, east of north

vy = v1y + v2y = 7.07 mph, north

The magnitude of the resultant velocity is:

|v| = sqrt(vx^2 + vy^2) = sqrt((6.93 mph)^2 + (7.07 mph)^2) = 9.99 mph

The direction of the resultant velocity can be found by taking the inverse tangent of the ratio of the y-component to the x-component:

θ = tan^(-1)(vy/vx) = 45.03 degrees north of east

Therefore, the resultant velocity of the boat is 9.99 mph, 45.03 degrees north of east.

Explanation:

At the end A of the homogeneous rod with a mass of 400g, which has a point O of rotation, the body with a mass of 800g is suspended, fig. 4.24. What must be the mass of the suspended body at point B so that the bar is in equilibrium?

Answers

the case requires rotational equilibrium, for which the torque about O has to be 0.

The length of the rod is unclear, so i'll answer it according to the divisions in rod.

force at A = 0.8g

force at b = xg

0.8g*2 = xg*4

x = 0.4 = 400g

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