A billiard ball strikes and rebounds from the cushion of a pool table perpendicularly. the mass of the ball is 0.38 kg. the ball approaches the cushion with a velocity of +2.50 m/s and rebounds with a velocity of -1.90 m/s. the ball remains in contact with the cushion for a time of 3.40 × 10-3 s. what is the average net force (magnitude and direction) exerted on the ball by the cushion? f = entry field with correct answer entry field with incorrect answer entry field with correct answer

The correct formula for this simple harmonic motion is:

x = (6.0) cos [ (3 pi) t + pi/3 ] 

A. Calculating for displacement x at t = 2:

x =6.0 cos (19/3 pi)
x = 6 (0.5)

x = 3 m

B. Velocity is equivalent to the 1st derivative of the equation. v = dx / dt

 Velocity v = dx/dt = -18 pi sin (3pi t + pi/3) 

v = - 18 pi sin (6pi + pi/3)

v = 49.0 m/s

C. Acceleration is the 2nd derivative or the 1st derivative of velocity dv / dt
Acceleration a = dv/dt = -54 pi^2 cos(3pi t + pi/3) 

a = -54 pi^2 cos(3pi * 2 + pi/3)

a = 386.34 m/s^2

D. Phase = pi/3 

E. frequency f= 3pi/2pi = 1.5Hz 

F. period = 1/f = 1/1.5 = .6667sec 

Final answer:

The position function x(t) = X cos(ωt + φ) represents the simple harmonic motion of a body. At t = 2.0 s, we can calculate the displacement, velocity, acceleration, and phase of the motion. The frequency and period of the motion can also be determined.

Explanation:

In simple harmonic motion, the displacement of a body at any given time t is given by the equation x(t) = X cos(ωt + φ), where X is the amplitude, ω is the angular frequency, and φ is the phase angle.

(a) At t = 2.0 s, plugging in the values, we have x(2.0) = 6.0 cos((3π rad/s) * 2.0 s + π/3 rad).

(b) Velocity can be obtained by taking the derivative of the displacement function, v(t) = -ωX sin(ωt + φ).

(c) Acceleration can be obtained by taking the derivative of the velocity function, a(t) = -ω²X cos(ωt + φ).

(d) The phase of the motion refers to the initial position of the body and is represented by the phase angle φ.

(e) The frequency of the motion is given by f = ω/(2π) = (3π rad/s)/(2π) = 3/2 Hz.

(f) The period of the motion is the reciprocal of the frequency, T = 1/f = (2/3) s.

A driver sets out on a journey. for the first half of the distance she drives at the leisurely pace of 30 mi/h; during the second half she drives 60 mi/h, the driver's average speed on this trip is 40 mi/h.

To find the average speed for the entire trip, we can use the formula for average speed:

Average Speed = Total Distance ÷ Total Time.

In this case, the driver covers the first half of the distance at 30 mi/h and the second half at 60 mi/h.

Let's assume the total distance of the trip is [tex]\(D\)[/tex] miles. The first half of the distance is [tex]\(D/2\)[/tex] miles, and the second half of the distance is also [tex]\(D/2\)[/tex] miles.

Let's calculate the time taken for each half of the distance:

Time taken for the first half = Distance / Speed

= [tex]\((D/2) \, \text{miles} / (30 \, \text{mi/h})\)[/tex].

Time taken for the second half = Distance / Speed

= [tex]\((D/2) \, \text{miles} / (60 \, \text{mi/h})\).[/tex]

Total time for the trip = Time for the first half + Time for the second half.

Total time = [tex]\((D/2) / (30) + (D/2) / (60)\)[/tex].

Total time = [tex]\(\dfrac{D}{60} + \dfrac{D}{120}\)[/tex].

Total time = [tex]\(\dfrac{3D}{120} = \dfrac{D}{40}\)[/tex].

Now we can calculate the average speed:

Average Speed = Total Distance / Total Time.

Average Speed = [tex]\(D / \dfrac{D}{40}\)[/tex].

Average Speed = [tex]\(40\) mi/h[/tex].

Thus, the driver's average speed on this trip is 40 mi/h.

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The driver's average speed on this trip is 30 mi/h.

To find the average speed on this trip, we can use the formula: average speed = total distance / total time. Let's assume the total distance is D miles. According to the given information, the driver spends the first half of the distance at a speed of 30 mi/h and the second half at a speed of 60 mi/h. Therefore, the total time taken for the trip is D / (30 mi/h) + D / (60 mi/h) = D / (1/30 h) + D / (1/60 h) = 2D / (1/60 h) = 120D h. We can substitute this value into the average speed formula and simplify: average speed = D / (120D h) = 1/120 h. So, the driver's average speed on this trip is 1/120 h = 0.00833 h = 0.00833 x 60 min = 0.5 min/h = 0.5 x 60 = 30 mi/h. Therefore, the driver's average speed on this trip is 30 mi/h.

Since the system itself is giving off heat, this is a reduction in the internal energy.

heat = - 25,000 J

Since work is being done on the system, therefore it is an additional energy to the system. Work is given as:

work = - P dV

work = - 1.50 atm (6 L – 12 L)

work = 9 L atm

Since it is given that 1 L atm is equivalent to 101.3 J, therefore the total energy added is:

energy due to work = 9 L atm (101.3 J / 1 L atm)

energy due to work = 911.7 J

Therefore the total change in internal energy is the sum of heat and energy due to work:

Change in internal energy = - 25,000 J + 911.7 J

Change in internal energy = - 24,088.3 J

Therefore, approximately 24.1 kJ of energy is lost by the system in the total process.

Answer:

-24.1 kJ

The correct option is d. which is the change in internal energy is -24.9 kj.

As work is being done on the system, meaning additional energy is provided to the system. Therefore,

[tex]\begin{aligned}W&=- \int\limits {P} \, dv\\&=-P\ dv\\\\&=-P\ (V_f-V_i)\\&=- (1.50) (6-12)\\&= 9\ l\cdot atm\end{aligned}[/tex]

Also,

[tex]1\ l\cdot atm=101.3\ j\\9\ l\cdot atm=101.3\times 9\\9\ l\cdot atm=911.7\ j[/tex]

[tex]\Delta U = Q - W\Delta\\\\where,\\ U = change\ in\ internal\ energy\\Q = heat\ added\\W = work\ done\ by\ the\ system[/tex]

Substituting the values,

[tex]\begin{aligned}\\\Delta U&= Q - W\Delta\\&= -25000+911.7\\&=-24,088.3\ j\\&= -24.0883\ kj\end{aligned}[/tex]

Hence, the change in internal energy is -24.0883 kj.

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The total gauge pressure at the bottom of the cylinder would simply be the sum of the pressure exerted by water and pressure exerted by the oil.

The formula for calculating pressure in a column is:

P = ρ g h

Where,

P = gauge pressure

ρ = density of the liquid

g = gravitational acceleration

h = height of liquid

Adding the two pressures will give the total:

P total = (ρ g h)_water + (ρ g h)_oil

P total = (1000 kg / m^3) (9.8 m / s^2) (0.30 m) + (900 kg / m^3) (9.8 m / s^2) (0.4 - 0.30 m)

P total = 2940 Pa + 882 Pa

P total = 3,822 Pa

Answer:

 The total gauge pressure at the bottom is 3,822 Pa.

The total gauge pressure at the bottom of cylinder due to the oil and the water is  [tex]\boxed{3822\,{\text{Pa}}}[/tex].

Further Explanation:

Given:

The water in the cylinder is up to the height of 30 cm .

The total height of the liquid column in the cylinder is 40 cm .

The density of oil is  [tex]900\,{{{\text{kg}}}\mathord{\left/{\vphantom {{{\text{kg}}} {{{\text{m}}^{\text{3}}}}}}\right.\kern-\nulldelimiterspace} {{{\text{m}}^{\text{3}}}}}[/tex].

Concept:

The gauge pressure is the amount of pressure exerted by the liquid column on the surface below it.

The gauge pressure due to the height of the liquid pressure is given by:

[tex]P =\rho gh[/tex]

Here, [tex]P[/tex] is the gauge pressure, [tex]\rho[/tex] is the density of the liquid, g is the acceleration due to gravity and [tex]h[/tex] is the height of the liquid column.

The height of the oil present in the cylinder is:

[tex]\begin{aligned}{h_{oil}}&={h_{total}} - {h_{water}}\\&= 40 - 30\,{\text{cm}}\\&=10\,{\text{cm}}\\&\approx {\text{0}}{\text{.1}}\,{\text{m}}\\\end{aligned}[/tex]

The total gauge pressure at the bottom of the cylinder will be:

[tex]{P_{total}} = {\left({\rho gh}\right)_{water}} + {\left( {\rho gh}\right)_{oil}}[/tex]

Substitute the values in the above expression.

[tex]\begin{aligned}{P_{total}}&=\left({1000 \times 9.8 \times 0.30} \right) + \left( {900 \times 9.\times 0.1}\right)\\&=2940 + 882\\&=3822\,{\text{Pa}}\\\end{aligned}[/tex]

Thus, the total gauge pressure at the bottom of cylinder due to the oil and the water is [tex]\boxed{3822\,{\text{Pa}}}[/tex]

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Answer details:

Grade: High School

Subject: Physics

Chapter: Pressure

Keywords: Gauge pressure, water, oil, bottom of cylinder, 30cm of water, density of oil, 900kg/m^3, poured, floats on top, total liquid depth.

One complete orbit of the earth around the sun is 365 and ¼ days. Because of this, the earth has to completely orbit around the sun in respect to the stars too no the sun only and so the earth spins 366.26 times every rotation. The ratio of the earth's orbital period about the sun to the earth's period of rotation about its own axis will then be 1 is to 366.26.

Final answer:

The ratio of the Earth's orbital period about the sun to its period of rotation about its axis is 365.26:1.

Explanation:

The ratio of the earth's orbital period about the sun to the earth's period of rotation about its own axis is 365.26 days to 1 day.

This means it takes approximately 365.26 days for the Earth to orbit the Sun once, while it takes 1 day for the Earth to complete one full rotation about its axis.

Therefore, the ratio can be simplified to 365.26:1.

The direction of the induced magnetic field caused by this current will be the same direction as the external field.

As the external magnetic field decreases, an induced current flows in the coil. The direction of the induced magnetic field would be pointing to the screen.

The flux through the coil is said to decrease. In order to counter this change, the coil would generate or produce a magnetic field that is induced that would be pointing in the same direction as the external field that is flowing which is into the screen.

This is according to Lenz's law or the right-hand rule. It states that an induced current in a circuit that is due to the change or motion in the magnetic field should be directed opposing the change in the flux.

hence the direction of the induced magnetic field caused by this current will be the same direction as the external field.

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Nitrates and phosphates is correct on gradpoint

The information, most important when passing near a lighthouse is the

Water's depth or depth of the water.

A lighthouse is simply a structure that emits a bright light that provides navigators with a constant or intermittent signal.

In conclusion, When passing near a lighthouse we consider looking at the water's depth around the area

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The minimum length runway this aircraft can use is about 4.1 km

Acceleration is rate of change of velocity.

[tex]\large {\boxed {a = \frac{v - u}{t} } }[/tex]

[tex]\large {\boxed {d = \frac{v + u}{2}~t } }[/tex]

a = acceleration ( m/s² )

v = final velocity ( m/s )

u = initial velocity ( m/s )

t = time taken ( s )

d = distance ( m )

Let us now tackle the problem !

Let's look at the table in the attachment

Given:

u = 0 m/s

v = 79 m/s

a = 23 / 10 = 2.3 m/s²

Unknown:

d = ?

Solution:

Let's calculate the takeoff distance.

[tex]v^2 = u^2 + 2as[/tex]

[tex]79^2 = 0^2 + 2(2.3)s[/tex]

[tex]6241 = 4.6s[/tex]

[tex]s = 6241 \div 4.6[/tex]

[tex]s \approx 1400 ~ m[/tex]

The length of the runway must be three times the takeoff distance.

[tex]d = 3s[/tex]

[tex]d = 3(6241 \div 4.6)[/tex]

[tex]d \approx 4100 ~ m[/tex]

Grade: High School

Subject: Physics

Chapter: Kinematics

Keywords: Velocity , Driver , Car , Deceleration , Acceleration , Obstacle , Speed , Time , Rate

To determine the minimum runway length for an aircraft, multiply the takeoff distance by three. If the takeoff distance is known, this simple multiplication will provide the minimum runway requirement.

The question asks for the minimum runway length required for an aircraft, given that the runway must be three times the takeoff distance for safety reasons in the event of an aborted takeoff. To determine this, if we know the takeoff distance required for the aircraft, we simply multiply that distance by three to find the minimum runway length the aircraft can use. For example, if an aircraft requires 1 kilometer (1,000 meters) to take off, the minimum runway length must be 3 kilometers (3,000 meters) for safety reasons.

A chemical property of iron is its tendency to react with oxygen to form iron oxide, otherwise known as rust, which is a process called corrosion.

A chemical property of iron is its tendency to react with oxygen, which is an example of corrosion. This reaction forms iron oxide, commonly known as rust. Unlike physical properties like melting point, hardness, and strength under compression, chemical properties describe the potential for a substance to change its chemical structure. Corrosion is one such property that can only be observed as the substance is transformed into a different substance, in this case, iron becoming iron oxide.

In vehicles with airbags, maintain 12-15 inches of clearance from the steering wheel. Avoid collisions by driving safely: obeying laws, keeping distance, and using defensive driving strategies.

In a vehicle equipped with an airbag, it is crucial to ensure that there is a sufficient clearance of 12-15 inches between your chest and the center of the steering wheel. This safety precaution is just one of several essential tips to protect yourself while driving. Collisions on the road are frequently the result of negligent driving behaviors, including speeding, disregarding traffic signals and stop signs, and driving under the influence of alcohol or drugs. To minimize the risk of being involved in a collision, there are several fundamental steps you should follow.

Maintaining an appropriate following distance behind the vehicle in front of you is paramount. This allows you ample time to react to sudden stops or emergencies, reducing the likelihood of a rear-end collision. Choosing the correct lane is another critical aspect of safe driving. Stay in the right lane if you are moving slower than the flow of traffic and use the left lane for passing. Driving defensively means constantly being aware of your surroundings, anticipating the actions of other drivers, and being prepared to react swiftly and safely.

In summary, for your safety on the road, ensure proper clearance from the steering wheel in airbag-equipped vehicles and adhere to safe driving practices. Collisions often result from avoidable mistakes, so by obeying traffic laws, maintaining a safe following distance, choosing the appropriate lane, and adopting a defensive driving mindset, you can significantly reduce the risk of accidents and protect yourself and others on the road.

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Final answer:

To convert a thermos into an open energy system, allow for energy exchange by adding openings or using less insulating materials, thus modifying the thermos to gain or lose energy like other open systems.

Explanation:

To change a thermos into an open energy system, you must allow for the transfer of energy between the thermos and its surroundings. A thermos is designed to be an isolated system, minimizing energy exchange with the environment to keep its contents at a consistent temperature. However, to convert it into an open system, modifications can be implemented such as adding openings or using materials that facilitate heat exchange. It is through such alterations that the thermos can then gain or lose energy, behaving similarly to a pot of water on a stove, which is considered an open system because it loses heat to the air.

While a thermos typically serves to approximate an isolated system, where the coffee inside remains hot by limiting heat transfer, to convert it to an open system, one might drill holes in it or construct it from a less insulating material. Once converted, the thermos could then absorb energy from the environment or release energy to it, such as solar radiation warming the contents or ambient air cooling them down. This adherence to thermodynamics principles demonstrates how the laws of thermodynamics govern the energy dynamics of open systems. Ultimately, converting a thermos to an open system reflects the first law of thermodynamics, where the energy within the system changes through the work done on it or by it.

Answer:

a

Explanation:

For an object starting from rest and accelerating with a constant acceleration, the distance travelled is proportional to the square of the time. So, if an object travels 2.0 furlongs in the first 2.0 seconds, it will travel 8.0 furlongs in the first 4.0 seconds.

In the problem, we have an object accelerating from rest and we know that distance covered is proportional to the square of the time. In the first 2.0s, the object has covered a distance of 2.0 furlongs. Hence, if we double the time from 2.0s to 4.0s, since distance covered is proportional to the square of time, the object will cover 2*(2.0s)^2 = 8.0 furlongs in the first 4.0s. This relationship is based on the physics principle of displacement which defines that in constant acceleration, distance travelled is proportional to square of time.

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Answer:

Force of Earth will be dominating and the object will fall towards Earth

Explanation:

As we know that

Mass of Earth

[tex]M_e = 5.98 \times 10^{24} kg[/tex]

Mass of Moon

[tex]M_m = 7.35 \times 10^{22} kg[/tex]

since we know that gravitational force depends on mass and the distance between two objects

so here if an object is placed midway between Moon and Earth then as we can see that mass of Earth is approx 100 times more than the mass of Moon

So here we can say that Force of Earth will be dominating and the object will fall towards Earth