What is the half-reaction that occurs at the cathode during the electrolysis of molten potassium bromide?

The Fahrenheit temperature is 6 times the Celsius temperature roughly when it is 7.6 degrees Celsius. It is 1/5 times the Celsius temperature approximately when it's -169.4 degrees Celsius.

To find the temperatures where the Fahrenheit reading is (a) 6 times and (b) 1/5 times that of Celsius, we need to use the formula for converting Celsius to Fahrenheit: °F = (1.8 * °C) + 32. To find out when Fahrenheit is 6 times Celsius, create the following equation and solve for °C: 6°C = 1.8°C + 32. You can do this by subtracting 1.8°C from both sides, getting 4.2°C = 32, then dividing by 4.2 to find that when °C is roughly 7.6, the Fahrenheit value is 6 times the Celsius value. Repeating the process for when Fahrenheit is 1/5 times Celsius (0.2°C = 1.8°C + 32), we get that when °C is approximately -169.4, the Fahrenheit value is 1/5 times the Celsius value.

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Explanation:

Hooks law tries to explain th relationship between the force applied and the extension of the elastic material.

Elastic materials are materials which obeys hooks law

Answer:

-11 m/s

Explanation:

a lot simpler than that above me

A Class I or II trailer hitch is typically optimum for towing a boat and its equipment weighing less than 2000 pounds. It's also crucial to consider your vehicle's towing capacity and the combined weight of the boat, its equipment, and the trailer.

The optimal class of trailer hitch for towing a boat and its equipment weighing less than 2000 pounds is typically Class I or Class II. Class I trailer hitches can handle up to 2000 pounds gross trailer weight (GTW) with an utmost trailer tongue weight (TTW, weight the trailer puts on the hitch itself) of 200 pounds. Class II hitches can carry up to 3,500 pounds with a 300-pound maximum on the tongue.

Bear in mind that it is also crucial to check the towing capacity of your vehicle to ensure that it can handle the weight of the trailer and the boat as the vehicle's capacity can't be increased by using a higher class hitch. Furthermore, always consider the weight of the boat along with all of its equipment and the trailer's weight when determining the total weight.

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The Nile River empties into the Mediterranean Sea in the direction of flow from South to North. It is a common mistaken belief that water will flow from North to South because of the Earth’s rotation. It is not the case for Nile River since it is located at the elevated land of a hill. It is natural that the water flow must be from top down to the bottom. The Nile River will flood only once a year and its flow will start at Lake Victoria down to the Mediterranean coast.

Final answer:

The primary difference between oceanic crust and continental crust is that the continental crust is thicker, less dense, and older, composed mainly of granitic rocks, while the oceanic crust is thinner, denser, younger, and primarily basaltic.

Explanation:

One of the major differences between oceanic crust and continental crust is the composition and density of the rocks that make up these crusts. The continental crust is primarily composed of granitic rocks, is significantly thicker with an average thickness of 35 kilometers (22 miles), and is less dense, having a density of about 2.7 g/cm³. This lower density enables it to 'float' higher above the mantle. In contrast, the oceanic crust is primarily composed of basaltic rocks, is much thinner with an average thickness of 5-7 kilometers, and is denser with a density of 3.0 to 3.1 g/cm³, causing it to 'float' lower on the mantle, which is why oceans cover these regions.

Another critical difference is the age of the crusts. The oceanic crust is much younger, with the oldest parts being about 200 million years old, while the continental crust has regions that were formed up to 3.8 billion years ago. Due to the lower density of continental crust, it does not get subducted like the oceanic crust, which can be recycled back into the mantle.

The energy stored in the magnetic field of the air core solenoid is 0.063 joules.

When a current of 0.77 amperes flows through the air core solenoid with 68 turns, a length of 8 cm, and a diameter of 1.2 cm, the energy stored in its magnetic field can be calculated using the formula for the energy stored in an inductor:

[tex]\[ \text{Energy} = \frac{1}{2} \times \text{inductance} \times \text{current}^2 \][/tex]

The inductance (L) of a solenoid is given by the formula:

[tex]\[ L = \frac{\mu_0 \times N^2 \times A}{l} \][/tex]

where:

[tex]\( \mu_0 \)[/tex] is the permeability of free space [tex](\(4\pi \times 10^{-7} \, \text{Tm/A}\))[/tex],

(N) is the number of turns (68),

(A) is the cross-sectional area of the solenoid [tex](\(\pi \times (0.6 \, \text{cm})^2\))[/tex],

(l) is the length of the solenoid (8 cm).

Substituting these values into the inductance formula and then into the energy formula, we get the final answer of 0.063 joules.

Vectors quantity have magnitude and direction, which means that they can be solved arithmetically with their corresponding signs. In this case, we can simply add the two velocities to get for the final velocity of the plane. But first let us determine the signs of each velocity value.

As a reference, we take the direction of the plane to be going the positive y-axis. Therefore it is going up and positive. Now take note that the wind is a “tailwind” which means that the wind is going WITH the direction of the plane, therefore it is also a positive. Now knowing that, we can add the two:

Final velocity = 300 km / hr + 20 km / hr

Final velocity = 320 km / hr

Just a heads up, it's actually 320 km/h N. The verified answerer did not pay attention to the last sentence. Since it is about vectors, you must include the direction of the magnitude.

The maximum altitude the rocket will reach is 169 meters above the ground.

The maximum altitude (above the ground) that the rocket will reach can be determined by using the equations of motion. Since the rocket rises straight upward with a constant acceleration, we can use the kinematic equation:

vf = vi + at

where vf is the final velocity, vi is the initial velocity, a is the acceleration, and t is the time. In this case, the initial velocity is 0 m/s, the acceleration is 86.0 m/s², and the time is 1.70 seconds. Plugging in these values, we get:

vf = 0 + (86.0)(1.70)

vf = 146.2 m/s

Since the maximum height occurs when the velocity is 0 m/s, we can use the equation:

vf² = vi² + 2ad

where d is the displacement. Solving for d, we get:

d = (vf² - vi²) / (2a)

Plugging in the values, we get:

d = (0 - (146.2)²) / (2(-86.0))

d = 169 m

Therefore, the maximum altitude the rocket will reach is 169 meters above the ground.

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We have to first obtain the resultant force and use it to obtain the acceleration as 0.18 ms-2.

The resultant force is that singular force that has the same effect in magnitude and direction as two or more forces acting together. Now since the students involved in the thug of war all lie on the same line.

Let us take the right to be positive and the left to be negative, the resultant force now is; 140 N - 120 N = 20N whose direction  is to the right.

The total mass  to the right is 111Kg hence the acceleration is;

111Kg * a = 20 N

a = 20 N/111Kg

a = 0.18 ms-2

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The result of changing a physical sound wave into an analogous electrical signal using a transducer (such as a microphone) is called analogue audio. In this system, the rapid electrical level is directly proportional to the rapid air pressure taken by the transducer. The analogue signal is then augmented and can be kept on an analogue medium such as tape or transformed further into a succession of discrete mathematical numbers. The advantages of using this device is that it yields a subtle sound and is pleasing to the ear by pushing the signal level and overdriving it. But the disadvantages are editing it would be tedious and prone to degradation.

(D) The SI system, which is based on the metric system, has been more widely adopted than the English system, which is harder to use describes the difference between the SI and English systems of measurement.

The SI system has many names in order to cover different ranges of the same measure. These names are made by simply adding prefixes such as "kilo","milli" etc. The units of SI system are: metre, are, litre etc which are widely used due to its ease.

Answer:

Explanation:

Renewable energy such as solar energy, wind energy, geothermal energy and hydropower are inexhaustible and obtained from natural sources. This energy can be replenished. Whereas, the non-renewable energy sources such as coal and petroleum products are exhaustible energy. They cannot be replenished. It takes millions of years to form non-renewable energy. The non-renewable energy cause pollution but renewable energy is environment-friendly without being depleted. Therefore, renewable sources of energy better than non-renewable sources.

Neutron is the most effective nuclear bullet.

Even as depleted uranium, or DU, is extraordinarily dense and may punch via thick tank armor, many accept as true that those shells release small doses of radiation, like miniature neutron bombs. The U.S. has used DU shells in Iraq, Afghanistan, and Syria.

There are currently no recognized gun-type guns in the provider: advanced nuclear weapon states tended to abandon the design in favor of implosion-type weapons, boosted fission weapons, and thermonuclear weapons. New nuclear bullet states have a tendency to increase boosted fission and thermonuclear guns best.

There are currently no known gun-kind weapons in provide: advanced nuclear weapon states tended to desert the design in choose of implosion-kind weapons, boosted fission weapons, and thermonuclear weapons. New nuclear weapon states generally tend to expand boosted fission and thermonuclear guns handiest.

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Answer:

C is the best answer:)

Explanation:

Answer:

30

Explanation:

An architect finds some unlabeled dimensions on a blueprint, and no scale is shown. a 15-ft. wall that has already been built measures 1.5 in. on the drawing. a new wall that has to be built measures 3 in. on the drawing. The new wall be 3- ft.

The location of elements like doors, windows, sinks, and appliances as well as the style of the building are all shown in blueprints, a sort of construction sketch. Simply put: You will need a set of blueprints in order to create a building.

An architect finds some unlabeled dimensions on a blueprint, and no scale is shown. a 15-ft. wall that has already been built measures 1.5 in. on the drawing. a new wall that has to be built measures 3 in. on the drawing. The new wall be 3- ft.

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The answer is a width of a textbook. It is usually has centimeter and millimeter units on it. Since rulers are most commonly 15 or 30 cm long, it could only be used to measure the length or width of small things like small tin, or the length of a piece of paper. A length of a river and the distance between two cities cannot be measured by a ruler, there is proper equipment for that, the same goes for the size of an object under the microscope. 

The average net force exerted on the billiard ball by the cushion is -491.76 N in the opposite direction of the initial velocity of the ball.

The average net force exerted on the billiard ball by the cushion can be calculated using the impulse-momentum theorem. The impulse is equal to the change in momentum of the ball, which is the product of the mass of the ball and the change in velocity. In this case, the initial velocity is +2.50 m/s, and the final velocity is -1.90 m/s. The change in velocity is therefore (-1.90) - (+2.50) = -4.40 m/s. With a mass of 0.38 kg, the change in momentum is (-4.40) * (0.38) = -1.672 kg*m/s.

The average net force is equal to the impulse divided by the time of contact, which is 3.40 × 10-3 s. Therefore, the average net force is (-1.672) / (3.40 × 10-3) = -491.76 N. Since the force is negative, the direction of the force exerted on the ball by the cushion is opposite to the initial velocity of the ball.

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The average net force exerted on a 0.38 kg billiard ball by a cushion when it rebounds perpendicularly with a change in velocity from +2.50 m/s to -1.90 m/s during a contact time of 3.40 × 10-3 s is 494 N. This force is in the direction opposite to the motion of the ball.

The direction of the force exerted by the cushion would be in the opposite direction of the movement of the ball and its magnitude can be calculated using Newton's second law, F = ma, where F is force, m is mass, and a is acceleration. Here, we first need to calculate the acceleration by subtracting final velocity from initial velocity and dividing it by the time of contact. So, acceleration = (final velocity - initial velocity) / time = (-1.90 m/s - 2.50 m/s) / 3.40 × 10-3 s =  -1300 m/s². Now, we can find the force: F = ma = 0.38 kg * -1300 m/s² = -494 N. Hence the cushion exerts an average force of 494 N in the negative or opposite direction.

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When testing a laptop power connector, the voltage measured should be very close to the accepted voltage of the laptop, usually within a tolerance of ±5%. If the measured voltage is significantly higher or lower, it may indicate a problem with the power connector or the power supply.

When testing a laptop power connector, the voltage measured should be very close to the accepted voltage of the laptop. The accepted voltage is usually specified by the laptop manufacturer and can be found in the laptop's specifications or user manual. Generally, the voltage measured should be within a certain tolerance of the accepted voltage, usually around ±5%.

For example, if the accepted voltage of the laptop is 19 volts, then the voltage measured should be within the range of 18.05 volts to 19.95 volts. If the voltage measured is significantly higher or lower than the accepted voltage, it may indicate a problem with the power connector or the power supply.

It's important to note that the voltage measured can vary slightly depending on factors such as the quality of the measuring device and any fluctuations in the power supply. However, if the measured voltage is consistently outside of the acceptable range, it is recommended to consult a professional technician for further diagnosis and repair.

Answer:

5 feet below sea level

Explanation:

To determine the time it takes to cover 5.00 miles at 9.5 mi/h, you can use the formula Time = Distance / Speed, giving approximately 31.58 minutes.

To calculate how long it takes Anya to cover the distance of 5.00 miles, given the speed of a runner, we can use the formula:

Time = Distance / Speed

If a marathon runner averages 9.5 mi/h, we would substitute the values into the formula to find the time:

Time = 5.00 miles / 9.5 mi/h

Time = 0.5263 hours

To convert the time from hours to minutes, we multiply by 60 minutes per hour:

Time = 0.5263 hours × 60 minutes/hour

Time = 31.58 minutes

Therefore, it would take approximately 31.58 minutes for Anya to cover a distance of 5.00 miles at a speed of 9.5 mi/h.

A bouncing ball loses some of its energy at every bounce. The ball and the Earth collide, and during this collision momentum and kinetic energy are transferred. If the kinetic energy of the ball before the collision does not equal the kinetic energy of the ball after the collision, the ball cannot bounce back to the height of previous fall because it does not have enough kinetic energy to convert to potential energy.

Moreover, simple harmonic motion requires a force whose magnitude is proportional to the displacement and whose direction points towards the equilibrium point of the motion, called a restoring force, and this is not the case for a bouncing ball. The ball is under the influence of gravity during the entire process and the repulsive forces during the collision. Neither are restoring forces, so a bouncing ball's motion is not considered simple harmonic. 

The girl's initial velocity components are used, and the equations are solved to find the vertical distance travelled. The girl was approximately 0.683 meters above the water when she let go of the rope.

To find the height above the water, we can use the equations of projectile motion. The initial velocity has two components: one along the horizontal direction and one along the vertical direction. Since the girl lets go of the rope, the only force acting on her is gravity. This means that the vertical component of her velocity will decrease as she moves upward and then increase as she moves downward. At the highest point of her trajectory, her vertical velocity will be zero.

We can use the equations:

vertical velocity at time t = initial vertical velocity + acceleration × time

Since the acceleration due to gravity is downward and has a value of 9.8 m/s², we can write:

0 = 2.25 m/s × sin(35°) - 9.8 m/s² × t

Solving this equation for time t gives us t = 0.494 s.

We can then use the equation:

vertical distance = initial vertical velocity × time - 0.5 × g × t²

Plugging in the values, we get:

vertical distance = 2.25 m/s × sin(35°) × 0.494 s - 0.5 × 9.8 m/s² × (0.494 s)² = 0.683 m

Therefore, the girl was approximately 0.683 meters above the water when she let go of the rope.

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The girl was approximately 4.51 meters above the water when she let go of the rope. This was determined by resolving her initial velocity into horizontal and vertical components and using the kinematic equation for vertical motion under gravity.

Projectile Motion Calculation

To determine how high above the water the girl was when she let go of the rope, we need to analyze her motion as a projectile. We'll start by resolving her initial velocity into horizontal and vertical components:

Initial velocity [tex](v_0): 2.25 m/s[/tex]
Angle above horizontal: [tex]35.0^o[/tex]

Horizontal component [tex](v_{0x})[/tex]:
[tex]v_{0x} = v_0 \times cos(\theta)\\v_{0x} = 2.25 \times cos(35.0^o) = 1.84 m/s[/tex]

Vertical component [tex](v_{0y})[/tex]:
[tex]v_{0y} = v_0 \times sin(\theta)\\v_{0y} = 2.25 \times sin(35.0^0) = 1.29 m/s[/tex]

Next, we use the vertical motion to determine the initial height (h). We use the kinematic equation for vertical motion under gravity, assuming downward is negative:

[tex]y = v_{0y} \times t + 0.5 \times a \times t^2[/tex]

Where:
y = vertical displacement (we want to solve for the initial height, so y = h)
[tex]t = 1.10 s[/tex] (total flight time)
[tex]a = -9.8 m/s^2[/tex] (acceleration due to gravity)

Since she starts from an unknown initial height and lands at [tex]y = 0[/tex] (water surface level), rearrange the equation for h:

[tex]0 = h + (1.29 m/s \times 1.10 s) - (0.5 \times 9.8 m/s^2 \times (1.10 s)^2)\\0 = h + 1.42 - 5.93\\h = 4.51 meters[/tex]