In the figure, a frictionless roller coaster car of mass m = 826 kg tops the first hill with speed vo = 16.0 m/s at height h = 41.0m. What is the speed of the car (a) point A. (b) point b, and (c) point C? (d) How high will the car go on the last hill, which is too high for it to cross? Use g=9.81 m/s2

The RMS Voltage , Frequency and capacitance of capacitor is 82.8V,6.28Hz and 2.34F

Q ∝V .

Q = C/V.

C = Q/V.

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The frequency heard by the person is 493.78Hz.

When the train moves toward the stationary observer then:

[tex]F=n(V/V-V_{s})[/tex]

Given:[tex]n=472,V=340m/s,V_{s}=15m/s[/tex]

[tex]F=472(340/340-15)\\F=493.78Hz[/tex]

What are the frequency and pitch of sound?

Sounds are higher or lower in pitch according to the frequency of vibration of the sound waves producing them. A high frequency (e.g., 880 hertz [Hz; cycles per second]) is perceived as a high pitch, and a low frequency (e.g., 55 Hz) as a low pitch.

How does the frequency of sound change with distance?

The frequency of sound doesn't decrease with distance, but it does decrease with increasing distance, meaning it does go through the doppler shift, the same as light. This is why the sound of a car driving by at high speeds drops in frequency as the car passes you.

Thus, the frequency at which the whistle is heard is 493.78Hz

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452.05 Hz is the frequency at which whistle is heard when the frequency (Hz) a person hears as a train blows its whistle at 472Hz while moving 15m/s toward this person on a freezing cold day.

The No. of oscillations of a wave in fixed unit of time is termed as  frequency. f=1/T .

Given:

Frequency of whistle is =472Hz

The speed of train = 15m/s

Speed of air =340m/s

We use the given formula nA=n( V/V+Vs)

nA= 472(340/340+15)

nA=452.05 Hz

Hence, 452.05 Hz is the frequency at which whistle is heard when the frequency (Hz) a person hears as a train blows its whistle at 472Hz while moving 15m/s toward this person on a freezing cold day.

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A box with a mass of 1.5 kg is pulled across the floor with a constant velocity by a force of 37 N, the coefficient of friction is 2.52

The force that resists the motion of one solid object over another is known as friction. The four basic forms of friction are fluid friction, rolling friction, sliding friction, and static friction.

Friction is a sort of contact force. It exists between surfaces that are in touch with one another.

Given that,

Mass (m) = 1.5 kg

force (F) = 37 N

As we know,

co-efficient of friction (μ) = F/mg

μ = 37 N / (1.5 kg × 9.8 m/sec)

μ = 2.52

Thus, co-efficient of friction = 2.52

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Answer:

ok the final answer is μ = 2.52

Explanation:

I did the question on the flvs the first explanation is correct

Answer:

The correct answer is C.

Explanation:

Edwin Hubble classified spiral galaxies according to the tightness of their spiral arms compared to the size of their nuclear bulges. This classification scheme, known as the Hubble sequence, is based on the observation that spiral galaxies can have different degrees of spiral arm tightness and different sizes of nuclear bulges. By comparing these two features, Hubble was able to divide spiral galaxies into three main categories: barred spirals, normal spirals, and flocculent spirals. The classification of a spiral galaxy into one of these categories depends on the relative size of its nuclear bulge and the tightness of its spiral arms.

Answer:

How did Edwin Hubble classify spiral galaxies?

according to the tightness of their spiral arms compared to the size of their nuclear bulges

Explanation:

Took the K12 test.

Answer:650 * 0.8

Explanation:520

There are plenty of things we can do to help build up the sea anemone population, but a few ways would be:

A) mate clown-fish to breed,

B) tell people about the problem they're producing, and

C) prohibit the purchase and sale of clown-fish in retailers.

The sea anemone is not a threatened species. The effects of climate change and human activities on sea anemone populations, on the other hand, remain mostly unknown. Clown-fish have a thick mucus covering that shields them from the potentially lethal sting of sea anemones.

According to research, clown-fish and other anemone-fish populations are declining in the wild due to over harvesting for the aquarium trade.

Thus,

A) mate clown-fish to breed,

B) tell people about the problem they're producing, and

C) prohibit the purchase and sale of clown-fish in retailers.

This can we do to help build up the sea anemone population.

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Answer:

(a) 2.20 x 10^-4 N.

Explanation:

To solve this problem, you can use the formula for the gravitational force between two objects:

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

where F is the gravitational force, G is the universal constant of gravitation, m1 and m2 are the masses of the two objects, and r is the distance between them.

Plugging in the given values, we get:

F = (6.67 x 10^-11) * (10,000 kg) * (10,000 kg) / (5.5 m)^2

= 2.20 x 10^-4 N

So the answer is (a) 2.20 x 10^-4 N.

Tell me if this helps :)

Capacitors and inductors (which might be from time to time known as reactors) are passive gadgets that generate or soak up reactive strength.

They accomplish this with out widespread real-strength losses or running expense. The output of capacitors and inductors is proportional to the rectangular of the voltage. Voltage magnitudes are in large part decided via way of means of reactive strength flows;

Reactive strength go with the drift on the road will increase the voltage distinction among sending and receiving buses; • The more potent the short-circuit strength in a given bus, the much less reactive strength go with the drift from the road reduces its voltage with appreciate to the sending bus reactive strength go with the drift thru a transmission line is proportional to the cosine of the section perspective distinction among the sending and receiving give up voltages.

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Answer: decreasing  diagnol lines are constant  dpeed moving  toward the origin

Explanation:

The wavelength of highest photon energy is 0.544J.

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The speed of the car to land safely on the opposite side will be 24.0 m/s. The speed of the car just before it lands on the other side will be 31.0 m/s.

(a) Speed is defined as the rate of change of the distance attained. it is a time-based quantity.

The equation for the position vector will be;

= r = x₀ + v₀xt,y₀ + v₀yt + (1/2)gt²

where,

r = the vector position of the car

vₓ = the initial horizontal velocity

vₐ = initial vertical velocity

t = time

y₀ =the initial vertical position

g =the acceleration due to gravity

v = the velocity at time t

From the figure, the origin of the frame of reference is located at y₀ = 0 and x₀ = 0.

The given position vector from the figure;

= r(final) = (48 -19.5) m

Then, employing the equations for the x and y-components of the vector r final, we will obtain;

= y = y₀ + v₀yt + (1/2)gt²

= y = (1/2)gt²

= -19.5 m = (1/2) X 9.8 X t²

= t = 2 s

By estimating the initial velocity at t = 2.00

The value is x-component of the vector r final is 48.0 m.

= x = x₀ + v₀xt   [x₀ = 0]

= 48 = v₀x X 2

= v₀x  = 24 m/s

Hence the speed of the car to land safely on the opposite side will be 24.0 m/s.

(b) The speed of the car just before it lands on the other side will be 31.0 m/s.

= v = (v₀x,v₀y + gt)

The y-component of v is given by;

= vₐ = v₀y + gt   [v₀y = 0]

=  vₐ = -9.8 X 2

=  vₐ = -19.6 m/s

The resultant speed  of the vector v will be :

= v² = 24² + (-19.6)²

= v = √ (24² + (-19.6)²)

= v = 31 m/s

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The complete question:

During a storm, a car traveling on a level horizontal road comes upon a bridge that has washed out. The driver must get to the other side, so he decides to try leap- ing the river with his car. The side of the road the car is on is 21.3 m above the river, while the opposite side is only 1.8 m above the river. The river itself is a raging torrent 48.0 m wide. (a) How fast should the car be traveling at the time it leaves the road in order just to clear the river and land safely on the opposite side? (b) What is the speed of the car just before it lands on the other side?

The force acting on satellite is 6.15 × [tex]10^{26}[/tex] kg.

What is force?

An object having mass differs its velocity in response to a push or pull. Force is an external agent that has the power to alter a body's resting or moving condition. It has a size and a movement.

Given,

F= [tex]M_{satellite}[/tex] × [tex]v^{2}[/tex]/r

v = 2[tex]\pi[/tex]r/T

F= [tex]M_{satellite}[/tex] × [4[tex]\pi[/tex][tex]r^{2}[/tex]/[tex]T^{2}[/tex]]

= 602 × 4[tex]\pi^{2}[/tex] × 1.98 × [tex]10^{8}[/tex] /[tex]86400^{2}[/tex]

= 630.37 N

[tex]M_{planet}[/tex] = 4[tex]\pi[/tex][tex]r^{2}[/tex][tex]r^{3}[/tex]/[tex]GT^{2}[/tex]

= (4[tex]\pi^{2}[/tex] × (1.98 × [tex]10^{8}[/tex][tex])^{3}[/tex])/ (6.67 × [tex]10^{-11}[/tex] × [tex]86400^{2}[/tex])

= 6.15 × [tex]10^{26}[/tex] kg.

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The plastic deformation of a material under a stress is the permanent deformation.

Plastic deformation is the permanent deformation of a material that occurs when the material is subjected to a stress that is above its yield strength. When a material undergoes plastic deformation, the bonds between the atoms or molecules that make up the material are broken and reformed in a new configuration, resulting in a permanent change in the shape of the material.

Plastic deformation can occur in a variety of materials, including metals, plastics, and ceramics. It is typically characterized by a decrease in the strength and an increase in the ductility of the material, as the material becomes more pliable and able to undergo significant deformation without breaking. The amount of plastic deformation that a material can undergo depends on a variety of factors, including the material's yield strength, the type of stress it is subjected to, and the duration of the stress. Some materials, such as steel, are able to undergo significant plastic deformation before breaking, while other materials, such as glass, are prone to brittle failure and can undergo little or no plastic deformation before breaking.

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The change that would make the water balloon more likely to pop is:

The correct options are B and C

Heat capacity or also known as thermal capacity is a physical property of matter, defined as the amount of heat to be supplied to an object to produce a unit change in its temperature.

So, Using a liquid that has a lower heat capacity than water and using a thicker balloon will make the water balloon more likely to pop.

We know now that heat capacity or specific heat is the amount of heat per unit mass that is required to raise the temperature by 1°C and this is helpful in determining the processing temperatures and amount of heat necessary for processing and can be helpful in differentiating between two polymeric composites.

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Answer: Law of conservation of mass

Explanation:

Answer:

Explanation:

Hope you can give me "Brainliest" answer is will help a lot! Thank you

To solve this problem, we can use the following equations:

Linear speed: v = d/t

Angular speed: w = v/r

Spring compression: x = (1/2)kx^2

Conservation of energy: KE = PE

a) To find the linear speed of the center of mass after 3.82 m, we can use the equation v = d/t. We know that d = 3.82 m and t = 1 s (since the ball is starting from rest). Plugging these values into the equation gives us:

v = 3.82 m / 1 s = 3.82 m/s

This is the linear speed of the center of mass after 3.82 m.

b) To find the angular speed after 3.82 m, we can use the equation w = v/r. We know that v is 3.82 m/s (the linear speed we just found) and r is 0.27 m (the radius of the ball). Plugging these values into the equation gives us:

w = 3.82 m/s / 0.27 m = 14.15 rad/s

This is the angular speed of the ball after 3.82 m.

c) To find the spring compression, we can use the equation x = (1/2)kx^2. We know that k is 20 N/m (the spring constant) and x is the spring compression (which we are trying to find). Plugging these values into the equation gives us:

x = (1/2)(20 N/m)(x^2)

To solve for x, we can rearrange the equation to get:

x^2 = (2/k)x

Substituting in the value for k gives us:

x^2 = (2/20 N/m)x

Solving for x gives us:

x = sqrt(2/20 N/m) = 0.2 m

This is the spring compression.

d) To find the maximum linear speed, we can use the conservation of energy equation KE = PE. We know that KE is the kinetic energy of the ball (which is equal to (1/2)mv^2) and PE is the potential energy of the ball (which is equal to mgh, where m is the mass of the ball, g is the acceleration due to gravity, and h is the height of the incline). We also know that the ball starts at the top of the incline with a height of h = 10 m and that it rolls down the incline a distance of d = 3.82 m. We can use these values to find the final height of the ball, h2, using the equation h2 = h - d = 10 m - 3.82 m = 6.18 m.

Substituting these values into the conservation of energy equation gives us:

(1/2)mv^2 = mgh2

Solving for v gives us:

v = sqrt(2gh2/m) = sqrt(2(9.8 m/s^2)(6.18 m)/0.321 kg) = 6.58 m/s

This is the maximum linear speed of the ball.

e) To find the angular speed with the spring fully compressed, we can use the equation w = v/r. We know that v is the maximum linear speed we just found (6.58 m/s) and r is the radius of the

The system is working based on the Conservation of Momentum: A 5kg mass has a speed of 3m/s to the right when it hits and sticks to a 4 kg mass that moves with speed of 0.75m/s to the right (C). Both mass then move together with 2m/s to the right.

Conservation of momentum states that the total momentum of a system remains constant.

P = P'

Momentum is the product of a particle's mass and velocity. Momentum could be formulized as:

P = m.v

From the case, we know that:

m1 = 5kg

m2 = 4kg

v1 = 3m/s to the right

v1' = v2' = v' = 2m/s to the right

v2 = ?

Based on the conservation of momentum concept, we know that:

P = P'

where:

P = m.v

Hence:

P = P'

m1.v1 + m2.v2 = (m1 + m2)v'

5 (3) + 4 (v2) = (5+4) 2

15 + 4v2 = 18

4v2 = 3

v2 = 0.75 m/s --> because v2 positive, hence m2 is moving to the right

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Answer:

1.328m/s

Explanation:

Because it takes less meters per second compared to 1.351 m/s. Hope it helps!

The speed of sound (velocity) is 343 m/s and a burglar alarm on a car has a frequency of 1200hz. 0.286 m/sec is the wavelength of the burglar alarm on the car.

Frequency is a unit of measurement for how frequently a recurrent event, like a wave, takes place over a specified period of time. A cycle is one repetition of the repeating pattern. Frequency only exists in moving waves that change their places throughout time. One method to describe how quickly a wave moves is by its frequency.

Therefore, if a wave passes through in half a second, the frequency is 2 per second. The frequency is 100 times per hour if it takes 1/100 of an hour.

Given that,

speed of sound (velocity) is 343 m/s

frequency of 1200 Hz.

Now as we know,

v = n × λ

or, λ = v/n

or, λ = (343 m/sec) / 1200 Hz.

or, λ = 0.286 m/sec

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The centripetal acceleration of the mass is 10 m/s².

The centripetal acceleration of the mass when it is at the lowest position is calculated as follows;

Tsinθ = ma - mg

where;

when the mass is at the lowest position, θ = 0

The centripetal acceleration of the mass is calculated as follows;

T sin (0) = ma - mg

0 = ma - mg

ma = mg

a = g

Given that g, acceleration due to gravity = 10 m/s²

Hence, a = 10 m/s²

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The complete question is below:

A mass m is suspended by a massless string forming a simple pendulum of length 2.0 m. The string of the pendulum is initially at an angle of 60° with the vertically downward direction when the mass is released from rest. Calculate the centripetal acceleration of the mass when it is at the lowest position ( take g = 10 m/s²).

The value of x =3.

Value is regard that something is held to deserve the important worth or usefullness of something .

In ∆ ABC

<A= <B=<C

Triangle is equilibrium triangle.

All the triangle side will be equal

6x-3=3x+6=5x

=6x-3 =3x+6

=3x=g

X=3

Thus, X = 3

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The reaction depicted by the equation is a double replacement reaction.

Double-replacement reactions are chemical reactions during which the reactants exchange ions to form two new products entirely. The two compounds participating in double-replacement reactions are usually ionic compounds.

Unlike double-replacement reactions, single-replacement reactions involve the displacement of an atom from a compound by another atom.

Thus, a double-replacement reaction is in the form: [tex]AB + CD --- > AD + CB[/tex]

While a single-replacement reaction is usually in the form: [tex]AB + C --- > AC + B[/tex]

Thus, the reaction [tex]MgBr_2 + 2 NaCl --- > MgCl_2 + 2 NaBr[/tex] is a double replacement reaction.

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The average decay rate for the two samples will be about the same.

The correct option is B.

Cosmic rays that reach Earth have the potential to interact with atom nuclei in the atmosphere, producing billions of fission fragments in the process. Cosmic rays were the sole technique to examine subatomic particles before people created the first photon accelerators in the 1950s.

HZE ions are the name for these high-mass, high-charged particles. Numerous sources produce primary cosmic rays. They may originate from sunspots or solar explosions, for instance. The term "solar energetic particles" is frequently used to describe the particles released by the sun.

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As a result, the diameter of the shaft, as determined by Mohr's circle method, is 3.4 ksi.

The transformation equation for issues involving plane stress are shown graphically by Mohr's circle. It helps to visualize the relationship between normal and shear loads acting on a stress component at any required direction. This process was developed by a German scientist by the name of Karl Friedrich Mohr. As a result, this procedure was given the moniker Mohr's method. Direct titration is a part of the procedure. Chloride ion solution serves as the analyte in this process, while silver nitrate is utilized to prepare titrants.

The major stress and maximum shear stresses are identified, along with their planes, using Mohr's circle, which also aids in visualizing the normal stress and shear stress acting on the plane. Maximum shear stress (max) equals (σ1-σ2). Mohr's Circle coordinate is represented by the symbols σx,σy. Mohr's Circle Center (C) = ((σ1+2)/2, 0)

J=0.0310 in^4

I=J/2=0.0310/2

I=0.0155 〖in〗^4

T=Tr/J=(240×0.375)/0.031

=2.9ksi

σ=Mr=144×(0.375)

=3.5ksi

σA=σmax=σ avg+R

=1.75+3.4

=5.15ksi

σB=σ min=σ avg-R

=1.75-3.4

=-1.65ksi

T max.=R=3.4ksi

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The magnitude of the average force due to air resistance be  188.75 N.

Energy cannot be created or destroyed, according to the rule of conservation of energy. However, it is capable of change from one form to another. An isolated system's total energy is constant regardless of the types of energy present. The law of energy conservation is adhered to by all energy forms. The law of conservation of energy essentially says that

The total energy of the system is conserved in a closed system, also known as an isolated system.

Total energy of the chuck of ice at 553 m tall tower: E = mgh

= 25.0 × 9.8 × 553 Joule = 135485 joule.

If the average force due to air is W the, total energy of the ice at 353 m above the ground:

E = mgh + 1/2mv² + W(553-353)

=  25.0 × 9.8 × 353  + 1/2×25×30² + 200 W

= 97735 + 200 W joule

According to conservation of energy:

135485 =  97735 + 200 W

⇒ 200 W = 37750

⇒ W =  188.75 N.

Hence, the magnitude of the average force due to air resistance be  188.75 N.

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To change a large amount of force with a small force, you will have to apply the force over a longer period of time. So, option (a) is correct.

In physics, the term "impulse" is used to characterize or measure the impact of force operating gradually to alter an object's motion. It is often stated in Newton-seconds or kilograms per second and is denoted by the symbol J.

Product of the average force applied to an object throughout time and the time period during which it is applied is impulse. The change in momentum is the same as impulse.

You will have to apply the force over a longer period of time to create large amount of impulse with a small force.

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The statement that is true about the motion of a planet in its orbit around the Sun is the planet's orbital speed changes as it moves closer and farther from the Sun. The correct option is C.

The motion of a planet is explained by Kepler's law of motion. Kepler's laws of planetary motion are physics rules that govern the motions of the planets in the solar system. They were developed by the German astronomer Johannes Kepler.

According to Kepler's first law of planetary motion, the path that the planets take around the sun is elliptical, with the sun's center at one focus. The distance between the Sun and the planets changes as they orbit the Sun.

Therefore, the correct option is C: The planet's orbital speed changes as it moves closer and farther from the Sun.

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Answer:

Jupiter

Explanation:

It has the highest gravitational pull

The height of the box decreases and the velocity of the box increases.

Energy cannot be created or destroyed according to the rule of conservation of energy. However, it is capable of changing its form. The total energy of an isolated system is constant for all forms of energy.

The law of energy conservation is observed by all energy forms. In a nutshell, the law of conservation of energy asserts that: The whole energy of the system is preserved in a closed system, or a system that is cut off from its surroundings.

As the total mechanical energy of the box is conserved, the potential energy of the box transfers into kinetic energy which refers that the height of the box decreases and the velocity of the box increases.

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