How does conservation of energy apply to roller coasters?

The correct answer is C. They are pointing right to left.

Explanation.

A magnet has two poles, a north pole and a south pole.  When dealing with magnets, we define the concept of a magnetic field. A magnetic field represents the effect of the magnet on magnetic materials and moving charges in the space around the magnet. For every magnet, the magnetic field lines always point away from the north pole of the magnet towards the south pole. Since the north pole of this magnet faces right, the magnetic field lines point towards the left.

The correct answer is C. They are pointing right to left.

Answer:

so b????????

Explanation:

The correct answer to fill in the blank would be:

“a barrier island”

Barrier islands are coastal landforms and a category of dune system that are remarkably even or lumpy areas of sand that was formed by wave and tidal actions that are parallel to the mainland coast. Due to this feature, there are no enough sand blockades to minimize the destruction by Hurricane Sandy.

The lithosphere, encompassing Earth's crust and the uppermost rigid portion of the mantle, is the layer divided into tectonic plates. These plates move due to the convection of the mantle and are responsible for many geological processes.

The physical layer of Earth that is broken into tectonic plates is known as the lithosphere, which includes the crust and the uppermost, rigid portion of the mantle. The lithosphere is about 100 kilometers thick and is broken into several tectonic plates that cover Earth's surface, including both continental and oceanic crust.

These tectonic plates fit together like a jigsaw puzzle and move due to the process of mantle convection, where heat from Earth's interior causes the upward flow of warmer mantle material and the downward sinking of cooler material. This movement can cause the plates to drift apart, collide, or grind past each other, leading to various geological phenomena such as earthquakes, volcanic activity, and the formation of mountain ranges.

The asthenosphere beneath the lithosphere is involved in the movement of these plates as well; it acts as a soft, ductile layer allowing the rigid plates of the lithosphere to move over it. The slow but steady motion of tectonic plates is driven by numerous forces, including the heat transfer from Earth's interior which is an essential aspect of planet's cooling system.

Answer: 54 miles per hour

Explanation:

Given: Distance = 162 miles

As the car left point a at 7:30 am and arrived at point b.

Time taken to travel from point a to b = 3 hours

Therefore, the average speed =[tex]\frac{\text{total distance}}{\text{total time}}[/tex]

[tex]=\frac{162}{3}=54\text{ miles per hour}[/tex]

Hence, the average speed = 54 miles per hour

The average speed of the car, which travelled 162 miles over a period of 3 hours, is calculated as total distance divided by total time -- in this case, 54 miles per hour.

To calculate the average speed of the car, we divide the total distance travelled by the total time taken. In this case, the car travelled 162 miles between 7:30 am and 10:30 am, which is a period of 3 hours. Therefore, we calculate the average speed as follows: 162 miles / 3 hours = 54 miles per hour. So, the car's average speed over the whole journey from point A to point B was 54 miles per hour. In the context of this problem, 'average speed' is a measure of the total distance covered in a given time period, regardless of changes in speed or direction over the course of the journey.

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We have to heat a brass rod at 982.4[tex]\rm ^\circ C[/tex] for it to be 1.8 % longer than it is at 30.

Given :

Brass rod is 1.8 % longer than it is at 30[tex]\rm ^\circ C[/tex].

Solution :

We know that,

[tex]\rm \dfrac{\Delta L}{L_0}=\alpha \Delta T[/tex]

[tex]\rm \dfrac{\Delta L}{L_0}=\alpha ( T_2-T_1)[/tex]      ---- (1)

Where, [tex]\rm \Delta L[/tex] is the elongation,

[tex]L_0[/tex] is the original length,

[tex]\alpha[/tex] is the coefficient of linear expansion. For brass,

[tex]\rm \alpha = 18.9\times 10^-^6/^\circ C[/tex],

[tex]\rm \Delta T[/tex] is the change in temperature.

1.8 % length expansion means:

[tex]\rm \dfrac{\Delta L}{L_0} = 0.018[/tex]

Now put the values of

[tex]\rm \alpha ,\;\dfrac{\Delta L}{L_0},\;and\;T_1[/tex]     in equation (1) we get:

[tex]\rm 0.018 = 18.9\times 10^-^6 \times(T_2 - 30)[/tex]

[tex]\rm T_2 = 982.4\; ^\circ C[/tex]

We have to heat a brass rod at 982.4[tex]\rm ^\circ C[/tex] for it to be 1.8 % longer than it is at 30.

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Answer with Explanation:

The Statement of Chemical Reaction is:

   Carbon burns in the presence of oxygen to give carbon dioxide.

Writing it in terms of Chemical Reaction

   [tex]C (\text{Carbon}) +O_{2}(\text{Two Atoms of Oxygen})=CO_{2}[/tex]

That is Carbon when combines with two molecules of Oxygen gives Carbon Dioxide.

Final answer:

Catching a fast-moving softball with an extended hand moving backward reduces the catching force because this technique increases the time over which the collision occurs, thus lowering the force applied to the hand according to the impulse-momentum theorem.

Explanation:

The student's question pertains to the physics concept of impulse and how it applies to catching a fast-moving softball with one's bare hands. When you move your hand backward upon catching the ball, you are increasing the time over which the collision between your hand and the ball occurs. According to the impulse-momentum theorem, the impulse on an object is equal to the change in momentum of the object, which is the product of the mass and change in velocity (force applied over a period of time). By increasing the time, the force exerted on your hand by the ball decreases, making it less painful and reducing the likelihood of injury.

Using the formula impulse = force × time, by increasing the time during which the force is applied (the time during which your hand moves backward), you are effectively spreading out the force over a longer period, and thus, the peak force felt by your hand is lower. This is similar to the concept of crumple zones in cars which extend the time of impact and reduce the force felt by the occupants.

Therefore, when catching a fast-moving softball with your hand, extending your hand forward and allowing the ball to ride backward with your hand reduces the catching force due to the longer duration over which the force is applied, resulting in a smaller impulse felt by your hand. This is why this technique is often used by players to catch high-speed balls safely.

Final answer:

In all chemical reactions, both matter and energy must be conserved. The law of conservation of matter states the quantity of each element remains constant, and the law of conservation of energy (the first law of thermodynamics) states that energy can be transformed but not created or destroyed. Chemical equations must be balanced to reflect these conservation laws.

Explanation:

In all chemical reactions, matter and energy must be conserved. These principles are known as the law of conservation of matter and the energy conservation law. According to these laws, the quantity of each element remains unchanged in a chemical reaction, meaning that there's the same amount of each element in the products as there was in the reactants because matter is conserved. This is reflected in a chemical equation where the same number of atoms of each element appears on each side of the equation.

In addition to matter being conserved, energy is also conserved as described by the first law of thermodynamics. Energy can be transformed from one form to another or transferred between objects, but the total energy before and after a chemical reaction remains constant. The conservation of energy is also important to understand because, despite matter and energy being interchangeable under certain circumstances in physics, in most chemical reactions, the energy changes are modest and the mass changes are negligible, so these two quantities appear to be conserved.

It is important to remember that these conservation laws are a fundamental aspect of chemical equations that need to be balanced to satisfy the law of conservation of matter. Atoms are neither created nor destroyed in chemical reactions so the reactants and products must always have the same total number of each type of atom. This aspect is critical for correctly understanding and performing chemical reactions.

According to the Big Bang theory, after the "bang," the universe remained dark until about 380,000 years later, when neutral atoms began to form.

During this period, the universe was filled with a hot, dense plasma of protons, electrons, and photons constantly interacting, which prevented light from traveling freely. This era is known as the "cosmic dark age." Around 380,000 years post-Big Bang, the universe cooled enough for protons and electrons to combine and form neutral hydrogen atoms, a process called "recombination."

This allowed photons to travel unimpeded, making the universe transparent and visible. This transition is marked by the emission of the cosmic microwave background radiation, which we can still detect today as the afterglow of the Big Bang.

Complete Question:

According to the Big Bang theory, after the "bang," the universe remained dark until about _____ later, when neutral atoms began to form.

Potential energy is the type of energy associated with the position or composition of an object. It's the stored energy that can be fully recovered.

The energy that is associated with the position or composition of an object is called potential energy. This is a type of energy that is stored and can be completely recoverable. Energy comes in different forms and potential energy is one type due to an object's relative position, composition or condition. An object could possess this energy because of its place within a system. For instance, water at the top of a waterfall has potential energy due to its position; when it flows downwards, it has kinetic energy that can be used to produce electricity in a hydroelectric plant. Similarly, a battery has potential energy because the chemicals within it can produce electricity that can perform work.

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The amount of energy required to heat a 45.87 kg iron block from 7°C to 218°C, given a specific heat capacity of 450 J kg-1 K-1 , is 4364065.5 Joules.

The amount of heat energy required to change the temperature of a substance can be calculated using the formula Q = mcΔT, where:

Given that the mass of the iron block (m) is 45.87 kg, the specific heat of iron (c) is 450 J kg-1 K-1, and the change in temperature (ΔT = T2 - T1) is (218 - 7) or 211°C, which is equivalent to 211 K in terms of heat calculations. Substituting these values into the formula, we get:

Q = 45.87 kg * 450 J kg-1 K-1 * 211 K = 4364065.5 Joules

So, it would require 4364065.5 Joules of energy to heat the iron block from 7°C to 218°C.

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Osmotic pressure, specifically the blood colloidal osmotic pressure, is the main force that moves fluid from interstitial spaces back into the capillaries, driven by protein concentration gradients.

The largest driving force for pulling fluid from the interstitial spaces back into the capillaries is the osmotic pressure, often specifically referred to as blood colloidal osmotic pressure (BCOP). This pressure exists due to the concentration of colloidal proteins such as albumin in the blood. These proteins create a higher solute concentration within the capillaries relative to interstitial spaces, resulting in water being attracted back into the bloodstream due to the solute-to-water concentration gradients established across the semipermeable capillary walls. Fluid re-enters the capillary where the capillary hydrostatic pressure is lower than the BCOP, typically at the venule end of the capillary.

To taxi a tricycle-gear equipped airplane with a left quartering tailwind, hold the elevator control fully forward and the aileron control to the left - to prevent the wind from lifting the tail or wing.

When taxiing a tricycle-gear equipped airplane with a left quartering tailwind, the flight controls should be held in a specific manner to maintain control of the aircraft. The elevator control should be fully forward and the aileron control turned to the left. This means the yoke or stick should be pushed forward and turned to the left.

Why so? This configuration of controls help prevent the wind from getting under the tail or wing and causing a loss of control. The left aileron up bubble helps prevent the left wing from being lifted by the wind. The elevator down bubble will prevent the wind from getting beneath the tail and lifting the nose.

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The highest elevation reached by the football in its trajectory is approximately 20.7 meters.

To determine the highest elevation reached by the football, we can use the kinematic equations for projectile motion. The initial velocity of the ball can be broken down into its horizontal and vertical components using trigonometry.

The horizontal component of the initial velocity is 28.0 m/s * cos(30.0°) and the vertical component is 28.0 m/s * sin(30.0°). Since there is no vertical acceleration at the highest point of the trajectory, the vertical component of the velocity is zero. We can use this information to find the time it takes for the ball to reach its highest elevation.

Using the equation vf = vi + at, where vf is the final velocity (zero), vi is the initial velocity (vertical component), a is the acceleration (acceleration due to gravity: -9.8 m/s^2), and t is the time, we can solve for t. Plugging in the values, we get:

0 = 28.0 m/s * sin(30.0°) - 9.8 m/s^2 * t

Simplifying and solving for t, we find that t = 2.86 seconds.

Now, we can use the equation hf = hi + vit + (1/2)at^2, where hf is the final height (highest elevation), hi is the initial height (0 m since the ball starts on the ground), vi is the initial velocity (vertical component), a is the acceleration (acceleration due to gravity), and t is the time. Plugging in the values, we get:

hf = 0 + 28.0 m/s * sin(30.0°) * 2.86 seconds + (1/2)(-9.8 m/s^2)(2.86 seconds)^2

Simplifying, we find that the highest elevation reached by the football is approximately 20.7 meters.

Explanation:

Humans might hold picnic outside in the bright sunny daylight and enjoy their day with family and friends. People will relax and will spend time with their near and dear ones. Less condensation means no rainfall, so people will also do few works that they have been willing to do but could not do due to rainfall. Thus people will be in a happy mood doing their work and spending their time with close ones. A sense of positiveness and happiness will surround the atmosphere.

This is because Helium has two valence electrons compared to Hydrogen which has only one. Helium has more energy levels for an electron to jump thus more spectral lines to occur. The spectral lines relating to each change of energy level would be more grouped together and hence the greater chance of them falling in the visible range.

Helium has more spectral lines than hydrogen due to the differences in their atomic structure and electron configurations, leading to a higher number of possible transitions and spectral lines.

Helium has more spectral lines than hydrogen because of the differences in the atomic structure of the two elements. While both elements exhibit similar spectral series, helium has two series of lines for every one series observed in hydrogen. This is due to the presence of two electrons in helium compared to one in hydrogen, resulting in more possible transitions and spectral lines.

Answer: double replacement reaction

Explanation:

1. Synthesis reaction is a chemical reaction in which two reactants are combining to form one product.

Example: [tex]Li_2O+CO_2\rightarrow Li_2CO_3[/tex]  

2. Double displacement reaction is one in which exchange of ions take place. Neutralization is a special type of double displacement where acid reacts with base to form salt and water.

Example: [tex]KOH(aq)+HCl(aq)\rightarrow KCl(aq)+H_2O(l)[/tex]

3. Single replacement reaction is a chemical reaction in which more reactive element displaces the less reactive element from its salt solution.

Example: [tex]Zn+2HCl\rightarrow ZnCl_2+H_2[/tex]

4. Decomposition is a type of chemical reaction in which one reactant gives two or more than two products.

Example: [tex]Li_2CO_3\rightarrow Li_2O+CO_2[/tex]

Answer:

correct answer is option C (check the food temperature to decide if it is safe. If the thermometer measures under 41 degrees Fahrenheit, then you move it to a working refrigerator)

Explanation:

In a refrigerator there is a thermometer which is  designed for the refrigerator and it should read 40 degrees Fahrenheit or lower inside the refrigerator. If a refrigerator stops working the first thing which should be checked is the food temperature to decide if it is safe. Because if temperature of food is above 40 degree Farenheit for more than 2 hours it should not be used. If the thermometer measures under 41 degrees Fahrenheit, then you move it to a working refrigerator.

Answer:

The motorist average speed for the trip is 88 km/h

Explanation:

In order to know her average speed, we have to refer to the following ecuation:

<V> (average speed) = [tex]\frac{Vfinal+Vinital}{2}[/tex]

So, according to that, we know that the motorist has been having a speed of 80km/h during 3 hours, and a speed of 100 km/h during 2 hours. It means that her speed during all the travel is 5 hours.

Then, we have to affect the 5 hours to the inicial and final speed as follows:

First, at 80 km/h, she travels during 2 hours so:

3h*80km/h= 240 km

And then, at 100 km/h:

2h*100km/h= 200 km

Which leads us to:

initial speed: 240 km/ 5 h= 48 km/h

and final speed of: 200 km/ 5 h= 40 km/h

Then, the average speed is:

<V> = 48 km/h + 40 km/h = 88 km/h

The rate constant of the first-order process that has a half-life of 3.50 min is approximately 0.00330 [tex]s^{-1}[/tex].  

The rate constant of a first-order process is related to its half-life through the equation:

Given that the half-life ([tex]t{\frac{1}{2}[/tex]) of the process is 3.50 minutes, we need to convert this time into seconds:

Now, substituting the half-life into the equation for the rate constant:

Calculating the rate constant:

Therefore, the rate constant of the first-order process is approximately 0.00330 [tex]s^{-1}[/tex].

The term that describes the total sediment load transported by a stream is "stream sediment transport."

Stream sediment transport refers to the overall amount of sediment, including sand, silt, and clay particles, that is carried by a stream as it flows. Stream sediment transport is influenced by factors such as the stream's velocity, gradient, and the size and shape of the sediment particles.

It plays a crucial role in shaping stream channels, depositing sediments in floodplains, and influencing the overall geomorphology of a stream system.

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