Physics College

What is the resultant velocity of a plane that is traveling at 245 m/s North and encounters a tailwind of 55 m/s North?

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Answer 1

Answer:

Explanation:

Related Questions

Which has more mass - a 5-kg bag of feathers or a 5-kg
cannon ball?

Answers

Answer:equal mass

Explanation:the mass of both is 5kg

Sona wants to install room heater in her living room. She had only two options, either to install heater at the top of the window or near the ground level. . Which method of installing room heater would be the effective way . Why or Why not ?

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Installing the heater near ground level is the better option because heat rises so putting it near the bottom will allow the warmth to rise and warm up more of the air in the room. Especially if it’s below the window because it will heat the cool air seeping through the window.

Help with Physical Science question?

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Answer: The answer is a because that's where it would be after it bounced

if the body is floating in a liquid then can we say that the rise in the level of the liquid is equal to the height of the body

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Yes, if a body is floating in a liquid, the rise in the liquid level is equal to the body height. This phenomenon is known as Archimedes' principle.

Archimedes' principle says when a body is immersed in a fluid (liquid or gas), it experiences an upward buoyant force equal to the weight of the fluid displaced by the body. Buoyant forces act in the opposite direction to gravity.

When a body floats in a liquid, it displaces a volume of liquid equal to its volume. As a result, the liquid level rises by an amount equal to the height of the submerged part of the body.

This principle holds for objects that float or are partially immersed in a liquid, such as a buoyant boat or a floating object. However, if the body sinks completely into the liquid, the liquid level rise will no longer be equal to its height. Instead, it depends on the density and volume of the submerged object.

Why won’t anyone help me please anybody help me I really need help .

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Answer:

1➡️ this is the method of decomposition

2➡️ H2 and O2

3➡️ b

sorry if I am wrong

Each of the following figures shows a person (not to scale) located on Earth at either 40°N or 40°S latitude. Rank the figures based on how much time the person spends in daylight during each 24-hour period, from most to least. To rank items as equivalent, overlap them.

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Figure at 40°N in June: This figure experiences the most daylight as it is located at a high latitude during the summer solstice, where the days are longest.Figure at 40°S in December: This figure experiences a moderate amount of daylight as it is located at a lower latitude during the summer solstice in the Southern Hemisphere.Figure at 40°N in December: This figure experiences less daylight compared to the previous two figures as it is located at a high latitude during the winter solstice.Figure at 40°S in June: This figure experiences the least amount of daylight as it is located at a lower latitude during the winter solstice in the Southern Hemisphere.

The ranking is based on the tilt of the Earth's axis and its orbit around the Sun. The figure at 40°N in June receives the most daylight because it is located at a high latitude during the summer solstice in the Northern Hemisphere. The Earth's axis tilts towards the Sun, resulting in longer days and shorter nights. The figure at 40°S in December receives a moderate amount of daylight as it is located at a lower latitude during the summer solstice in the Southern Hemisphere.

The figure at 40°N in December experiences less daylight because it is located at a high latitude during the winter solstice in the Northern Hemisphere, with shorter days and longer nights. Lastly, the figure at 40°S in June receives the least amount of daylight as it is located at a lower latitude during the winter solstice in the Southern Hemisphere, where the days are shortest and the nights are longest. Based on the information given, the ranking of figures based on the amount of daylight they experience in a 24-hour period, from most to least.

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100 POINTS AND BRAINLIEST!!! How does the egg sucked into a glass bottle trick work?

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Answer: The egg will get sucked into the bottle. To get the egg out of the bottle, turn the bottle upside down and blow into it, so that the egg acts as a one-way valve. The increased air pressure in the bottle will cause the egg to pop back out.

Explanation:

Quickly place the egg over the mouth of the bottle. The egg will get sucked into the bottle. To get the egg out of the bottle, turn the bottle upside down and blow into it, so that the egg acts as a one-way valve. The increased air pressure in the bottle will cause the egg to pop back out.

In which scenario will the two objects have the greatest gravitational force
between them?
A. Mass of object 1 = 22 kg
Mass of object 2 = 14 kg
Distance between objects = 28 m
B. Mass of object 1 = 22 kg
Mass of object 2 = 16 kg
Distance between objects = 48 m
C. Mass of object 1 = 22 kg
Mass of object 2 = 14 kg
Distance between objects = 48 m
D. Mass of object 1 = 22 kg
Mass of object 2 = 16 kg
Distance between objects = 28 m

Answers

Answer: The answer is D

Explanation:

The greater the mass and the less the distance

The two objects that will have the greatest gravitational force between them is:

D. Mass of object 1 = 22 kg

Mass of object 2 = 16 kg

Distance between objects = 28 m

What is Gravitational force?

It is an appealing power that exists between all items with mass; an article with mass draws in one more particle with mass; the size of the power is straightforwardly corresponding to the majority of the two articles and contrarily relative to the square of the distance between the two particles.

It is given by:

$F = G * \frac{m_{1} * m_{2}}{r^{2}}$

So, for the highest value of gravitational force there must be greater mass and lesser distance. So the option that holds good is option D.

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please help me. i have 2 hours

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the missing word is clockwise moment. I hope this helps good luck

What are the magnitude and the direction of the electric field that will allow an electron to fall with an acceleration of 4.3 m/s2?

Answers

Answer:

Explanation:

The acceleration of an electron in an electric field is given by the equation:

a = qE/m

where a is the acceleration, q is the charge of the electron, E is the electric field, and m is the mass of the electron.

Given that the acceleration of the electron is 4.3 m/s^2, and the mass of the electron is 9.11 × 10^-31 kg, and the charge of the electron is -1.6 × 10^-19 C, we can solve for the electric field E:

E = ma/q

E = (4.3 m/s^2) × (9.11 × 10^-31 kg) / (-1.6 × 10^-19 C)

E = -2.44 × 10^4 N/C

The negative sign indicates that the direction of the electric field is opposite to the direction of the electron's motion. Therefore, the magnitude of the electric field required to accelerate an electron with an acceleration of 4.3 m/s^2 is 2.44 × 10^4 N/C and the direction is opposite to the direction of motion of the electron.

Which option best describes the average acceleration from 40 to 70 s?

Answers

C. The average acceleration is positive and smaller in magnitude than the initial acceleration.

What is average velocity?

Average velocity is defined as the change in position or displacement (∆x) divided by the time intervals (∆t) in which the displacement occurs.

a = Δv/Δt

where;

Δv is change in velocityΔt is change in time

a = (250 - 248) / (70 - 40)

a = 0.067 m/s²

Thus, we can conclude that the average acceleration is positive and smaller in magnitude than the initial acceleration.

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What type of force is gravity?

Answers

Answer:

A force of attraction that exists between any two masses, bodies, or particles.

Explanation:

Answer:

The gravitational force is a force that attracts any objects with mass. You, right now, are pulling on every other object in the entire universe! This is called Newton's Universal Law of Gravitation. ... And if you triple the distance between two objects, you reduce the force to a ninth.

Explanation:

A 7-kg mass is hung from the bottom end of a vertical spring fastened to an overhead beam. The mass is set into vertical oscillations having a period of 2.60second. Find the force constant of the spring?

Answers

The spring constant for the spring would be 40.96 N/m.

What is the frequency?

It can be defined as the number of cycles completed per second. It is represented in hertz and inversely proportional to the wavelength.

The frequency of a pendulum is the reciprocal of the time period can be given by the following relation

f = 1/T

As given in the problem A 7-kg mass is hung from the bottom end of a vertical spring fastened to an overhead beam. The mass is set into vertical oscillations having a period of 2.60second.

w = k/m

w = 2πf

f = 1/T = 1/2.6 = 0.385 Hz

w = 2×π×0.385

= 2.42

w =√( k/m )

w = k/7

5.85 = k/7

k = 40.96 N/m

Thus, the force constant of the spring comes out to be 40.96 N/m.

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A airplane is traveling north at a indicated airspeed of 110 mph there is a westward cross wind at 13 mph at 90 degrees to the airplane flight path. What is the ground speed of the airplane

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Given,

The airspeed of the airplane, v₁=110 mph

The wind speed, v₂=13 mph

The angle between the direction of the wind and the airplane, θ=90°

Let us assume that the northward direction is the positive y-axis and the westward direction is the negative x-axis.

Then the speed of plane and wind in vector representation is,

\begin{matrix} \vec{v_{1}} = 110 \hat{j} \\ \vec{v_{2}} = 13 (- \hat{i}) = - 13 \hat{i} \end{matrix}

Where i and j are the unit vectors along the x-axis and the y-axis respectively.

The ground velocity of the airplane is the vector sum of the velocity of the plane and the wind. Thus,

\vec{u} = - 13 \hat{i} + 110 \hat{j}

The ground speed of the plane is the magnitude of the vector u, which is,

\begin{matrix} u = \sqrt{(- 13)^{2} + 110_{}^{2}} \\ = 110.77 m/s \end{matrix}

Thus the ground speed of the airplane is 110.77 m/s

Solar System - Scaling. When you look at Neptune in a telescope, you are actually looking into the past as the light has to travel from Neptune to your eyes. If the speed of light is ~300,000 km/s, how far back into the past are you looking (or put another way, how long does it take light to travel from Neptune to your eyes on Earth)

Answers

Answer:

Distance from sun to Neptune = 4.495E9 km

Time for light to travel = 4.495E9 / 3E5 sec = 14,980 sec

That is from sun to Neptune time fof light = 250 min

Time for light to travel from sun to earth is about 8 min

So the time from Neptune would be 242 to 258 min depending on position of Neptune - Note that Neptune is about 30X as far from the sun as earth and

250 min / 8 min is roughly 30

The uniform motion of kinematics allows us to find the time it takes for light to arrive from Neptune to Earth, which varies between:

t₁ = 1.45 10⁴ s and t₂₂= 1.55 10⁴ s

depending on the relative distance of the two planets

given parameters

The speed of light c = 300,000 km / s = 3 10⁸ m / s The distance from Neptune to Sum

to find

The time when light arrives from Neptune to Earth

They velocit of an electromagnetic wave is constant, so we can use the uniform motion relationships

v = d / t

t = d / v

where v is the speed of light, d the distance and y time, in this case the speed of the wave is the speed of light (v = c)

We look in the tables for the distances and the rotation periods around the sun

distance ( m) period (s)

Sun Neptunium 4.50 10¹² 5.2 10⁹

Sun - Earth 1.5 10¹¹ 3.2 10⁷

With the data of the period it is observed that the rotation of Neptune is much greater than that of Eart rotation around the sun, for which we will assume that Neptunium is fixed in space and the Earth may be in its aphelion or perihelion, maximum approach o away distance from the sun, consequently we calculate the time for the two cases:

Maximum approach

positions relative distance from the dos Plantetas is

Δd = $x_{N e p t u n o - S u m} - x_{E a r t h - S u m}$ d

Δd = 4.50 10¹² - 1.5 10¹¹

Δd = 43.5 10¹¹ m

the time it takes for Neptune's light to reach Earth is

Δt = $\frac{43.5 10^{11}}{3 10^{8}}$

Δt = 14.5 10³ s

Δt = 1.45 10⁴ s

We reduce to hours

Δt = 1.45 10⁴ s (1 h / 3600 s) = 4.03 h

Maximum away

Δd = $x_{N e p t u n e - S u m} + x_{N e p t u n e - S u m}$

Δd = 4.50 10¹² + 1.5 10¹¹

Δd = 46.5 10¹¹

The time is

Δt = $\frac{46.5 10^{11}}{3 10^{8}}$

Δt = 15.5 10³

Δt = 1.55 10⁴ s

We reduce to hours

Δt = 1.55 10⁴ s (1 h / 3600 s) = 4.31 h

In conclusion, the time it takes for light to arrive from Neptune to Earth varies between:

t₁ = 1.45 10⁴ s and t₂ = 1.55 10⁴ s

depending on the relative distance of the two plants

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which diagram is correct?

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The correct diagram would be W.

What is Coloumb 's Law ?

Coloumb's law is the magnitude of electrostatic force of attraction or repulsion is directly proportional of two charges and inversly proportional to the square of the radius.

F=kq1q2/r²

Where k is coulomb constant the value is 9×10⁹

q 1 and q2 are two point charges.

r is radius and F is electrostatic force .

The example of Coulmb's law are comb and bitof papers . Charges get deposit on the teeth of a comb when it is rubbed against hair.

W is right because when two like charges are in close vicinity then they repel each other and if there is unlike charge then it will attract each other .

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Consider a system of two charges of magnitude 2 × 10-7 C and 4.5 × 10-7 C which is acted upon by a force of 0.1 N. What is the distance between the two charges?

Answers

To find the distance between two charges, we can use Coulomb's law, which states that the force between two charges is proportional to the product of their magnitudes and inversely proportional to the square of the distance between them.

The formula for Coulomb's law is:

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

where:

F is the force between the charges,

k is the electrostatic constant (k = 8.99 × 10^9 N m^2/C^2),

|q1| and |q2| are the magnitudes of the charges, and

r is the distance between the charges.

Given:

|q1| = 2 × 10^-7 C

|q2| = 4.5 × 10^-7 C

F = 0.1 N

k = 8.99 × 10^9 N m^2/C^2

We can rearrange the equation to solve for r:

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

Plugging in the values:

r^2 = (8.99 × 10^9 N m^2/C^2 * 2 × 10^-7 C * 4.5 × 10^-7 C) / 0.1 N

r^2 = (8.99 × 2 × 4.5) * (10^9 * 10^-7 * 10^-7) / 0.1

r^2 = 80.91 * (10^9 * 10^-7 * 10^-7) / 0.1

r^2 = 80.91 * 10^(-7 + 9 - 1)

r^2 = 80.91 * 10^1

r^2 = 809.1

Taking the square root of both sides:

r = √809.1

r ≈ 28.46

Therefore, the distance between the two charges is approximately 28.46 units.

HELP ME ASAPPPPPPPPPPP
A penny sinks to the bottom of a wishing well
What type of frictional force is that?

Answers

The frictional force involved when a penny sinks to the bottom of a wishing well is primarily due to viscous drag or fluid friction. As the penny moves through the water, it experiences resistance from the surrounding fluid. This resistance is caused by the frictional forces between the water molecules and the penny's surface.

What is the effect of erosion?

A. New land forms at the mouth of a river.
B. New land forms at the top of a mountain.
C. A mountain forms.
D. A fossil is created.

Answers

The answer is A new land forms at the mouth of a river

Calculate the absolute pressure at an ocean depth of 1.0 x 10³ m. Assume that the density of the water is 1.025 x 10³ kg/m³ and that Po = 1.01 x 10^5 Pa.

Answers

The absolute pressure at an ocean depth of 1.0 x 10^3 m is 1.002 x 10^8 Pa.

What is hydrostatic pressure?

Hydrostatic pressure is the pressure that a fluid exerts on a surface due to the weight of the fluid above it. It is the result of the force of gravity acting on a column of fluid, and it is directly proportional to the height of the column of fluid and the density of the fluid.

The absolute pressure at an ocean depth of 1.0 x 10^3 m can be calculated using the hydrostatic pressure equation:

P = ρgh + Po

where:

P is the absolute pressure at the given depth

ρ is the density of the water

g is the acceleration due to gravity (assumed to be 9.81 m/s²)

h is the depth of the ocean

Po is the atmospheric pressure at the surface (assumed to be 1.01 x 10^5 Pa)

Substituting the given values, we get:

P = (1.025 x 10^3 kg/m³) x (9.81 m/s²) x (1.0 x 10^3 m) + 1.01 x 10^5 Pa

P = 1.025 x 9.81 x 10^6 Pa + 1.01 x 10^5 Pa

P = 1.002 x 10^8 Pa.

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The population, P, of a species of fish is decreasing at a rate that is proportional to the population itself. If P=200000 when t=3 and P=150000 when t=4, what is the population when t=10?Round your answer to the nearest integer.

Answers

As we know, the type of function that can be used to modelate populations is the exponential function, which, in our case will look like the following:

P (t) = P_{0} e^{- λ t}

Where P0 is the initial population, and lambda is a parameter which tells us how fast the population decays. By replacing the values we have, we get:

2 * 10^{5} = P_{0} e^{- 3 λ}, 1.5 * 10^{5} = P_{0} e^{- 4 λ}

In order to find out the first parameter, let us divide both equations:

\frac{2 * 10^{5}}{1.5 * 10^{5}} = \frac{P_{0} e^{- 3 λ}}{P_{0} e^{- 4 λ}} = e^{- 3 λ + 4 λ} = e^{λ}

e^{λ} = \frac{2}{1.5} \Rightarrow λ = l n (\frac{4}{3})

With this, we can find out the initial population by replacing lambda on any equation:

2 * 10^{5} = P_{0} e^{- 3 * l n (\frac{4}{3})} \Rightarrow P_{0} = \frac{2 * 10^{5}}{e^{- 3 l n (\frac{4}{3})}} \approx 474074.0741

Thus, the population when t=10 will be approximately:

P (10) \approx 474074.0741 e^{- 10 * l n (\frac{4}{3})} = 26696.77734

Thus, our answer is P(10)=26697

The student removes the 16 wire from the circuit and cuts it into two equal lengths.He then connects the two lengths in parallel between K and L, as shown in Fig. 8.2.

Answers

To find the equivalent resistance of a parallel resistors we use:

\frac{1}{R_{e q}} = \frac{1}{R_{1}} + \frac{1}{R_{2}}

In this case both resistor one and two have a 16 Ω resistance, plugging these in the equation above we have:

\begin{matrix} \frac{1}{R_{e q}} = \frac{1}{16} + \frac{1}{16} \\ \frac{1}{R_{e q}} = \frac{16 + 16}{256} \\ \frac{1}{R_{e q}} = \frac{32}{256} \\ \frac{1}{R_{e q}} = \frac{1}{8} \\ R_{e q} = 8 \end{matrix}

Therefore, the resistance of the two wires is 8 Ω

What does it mean when an object is magnified?

The object appears darker.
The object appears larger.
The object appears lighter.
The object appears smaller.

Answers

Answer:

The object appears larger

Explanation:

What is scintillator

Answers

a material that fluoresces when struck by a charged particle or high-energy photon.

Answer:

Scintillators are materials that are able to convert high energy radiation such as X or gamma-rays to a near visible or visible light. They are widely used as detectors in medical diagnostics, high energy physics and geophysical exploration (ref. Knoll).

https://web.stanford.edu › scintillators

What are scintillator materials? - Stanford: Advanced Optical Ceramics Laboratory

Mrs Turner has a scale drawing of her apartment.IN the scale drawing the lenght of her apartment is 6.25 inches and the width is 2.75 onches. If Mrs. Turner used the scale factor 1 inc/18ft, what would the area of the apartment be?

Answers

The area of Mrs. Turner's apartment is approximately 0.05304 square feet.

To find the area of Mrs. Turner's apartment, we need to convert the measurements from the scale drawing to the actual measurements in feet, using the given scale factor of 1 inch/18 feet.

Length of apartment in feet = 6.25 inches × (1 foot/18 inches) = 0.34722 feet

Width of apartment in feet = 2.75 inches × (1 foot/18 inches) = 0.15278 feet

Now, we can calculate the area of the apartment in square feet by multiplying the length and width:

Area of apartment in square feet = Length × Width = 0.34722 feet × 0.15278 feet = 0.05304 square feet

Therefore, the area of Mrs. Turner's apartment is approximately 0.05304 square feet.

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A mass on a
string is swung in a circle of radius 1.0m
at a speed of 5.0mls. What is the period of
revolution?

Answers

Answer:

S = 2 * pi * 1 m = 6.28 m = distance traveled

V = S / T or T = S / V = 6.28 m / 5 m/s = 1.26 sec

This will be the time for 1 revolution or the period of the motion.

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When small forces are applied at regular intervals equal to the period of a vibrating or oscillating object causing the amplitude of the vibration to significantly increase, this phenomenon is called:

a. Oscillation.

b. Periodic.

c. Resonance.

d. Vibrations.

Answers

Resonance..............

When small forces are applied at regular intervals equal to the period of a vibrating or oscillating object causing the amplitude of the vibration to significantly increase, this phenomenon is called c. resonance.

The lowest-pitch tone to resonate in a pipe of length L that is closed at one end and open at the other end is 200 Hz. Which one of the following frequencies will NOT resonate in the same pipe

a. 1800 Hz
b. 1000 Hz
c. 1400 Hz
d. 600 Hz
e. 400 Hz

Answers

Answer:

e. 400 Hz

Explanation:

In closed organ pipe, only odd harmonics of fundamental note is possible .

The fundamental frequency is 200 Hz . Then other overtones will be having following frequencies .

200 x 3 , 200 x 5 , 200 x 7 , 200 x 9 etc

600 Hz , 1000 Hz , 1400 Hz , 1800 Hz .

Frequency not possible is 400 Hz .

A 2-m3 rigid insulated tank initially containing saturated water vapor at 1 MPa is connected through a valve to a supply line that carries steam at 400°C. Now the valve is opened, and steam is allowed to flow slowly into the tank until the pressure in the tank rises to 2 MPa. At this instant the tank temperature is measured to be 300°C. Determine the mass of the steam that has e