An eagle carrying a trout flies above a lake along a horizontal path. The eagle drops the trout from a height of 6.1 m. The fish travels 7.9 m horizontally before hitting the water.

What is the velocity of the eagle? Round your answer to the nearest tenth.

The speeds of  the centre of mass is 2 2.0 m/s and block 2 is 4 m/s.

The speed of an object is the magnitude of the change of its position over time or the magnitude of the change of its position per unit of time; it is thus a scalar quantity.

(a) By conservation of momentum, the velocity of the center of mass is unchanged, i.e., 2.0 m/s.

(b) The speed of the center of mass = (m1v1+m2v2) / (m1+m2)

Since the second mass is initially at rest, vcom = m1v1 / (m1+m2)

Therefore, the initial v1 = vcom (m1+m2) / m1 = 2.0 m/s x 6 = 12 m/s

Since the second mass is initially at rest, v2f = v1i (2m1 /m1+m2 ) = 12 m/s (2/6) = 4 m/s

The speeds of  the centre of mass is 2 2.0 m/s and block 2 is 4 m/s.

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Yes, a balance measures mass, not weight and can do so in any enhanced environment. Also, the moon has gravity even if it is less than earth. What might be a bit unclear is that masses for it are standardized for Earth's gravitational field at its surface at sea level. So the interpretations for "weight" will have to be increased by 6 times so that it could be equivalent to Earth.

John Watson's demonstration of classical conditioning with Baby Albert involved pairing a loud noise (UCS) with a white rat (CS) to elicit a fear response (CR) in Albert, which later generalized to similar furry objects.

John Watson's experiments with Baby Albert are classic demonstrations of classical conditioning. Watson and his graduate student, Rosalie Rayner, used this method to show how a neutral stimulus, when paired with an unconditioned stimulus, can evoke a conditioned response. In the case of Little Albert, the unconditioned stimulus (UCS) was the loud noise, and the unconditioned response (UCR) was fear from the noise. The conditioned stimulus (CS) became the white rat after it was repeatedly paired with the loud noise. Soon, the mere presence of the white rat evoked the conditioned response (CR), which was fear. Later, stimulus generalization occurred when Little Albert started to fear similar furry objects.

According to Newtons' first law of motion, the block needed to be pushed to move from rest. Similarly need a force to stop its motion as well due to its inertia.

Newton's first law of motion states that, an object tends to stay in its state of motion or rest until an external force acts on it. This tendency to continue in the current state of the object is called its inertia.

Thus, an object at rests continue on rest if a force make it move. A stationary bus will move backwards when it is started quickly due to its inertia in rest. Similarly it will move to front when stopped suddenly.

Here, the block was initially at rest. If it is pushed it gains a kinetic energy and starts moving. When it moves with a constant speed it tends to continue in the moving and cant stop it until another force comes to stop it.

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Answer:

B) Boiling temperature.

Explanation:

Boiling temperature:

 The temperature at which a liquid convert in to gas is called boiling temperature.

Ex:The boiling temperature of water is 100°C.But when we add the salt in the water then its boiling temperature will increase.

Melting temperature:

The temperature at which when solid will convert into liquid is called melting point temperature.

Answer:

[tex]9.6 \cdot 10^6 m[/tex]

Explanation:

we can solve the problem by equalizing the force of gravity that keeps the satellite in circular motion with the centripetal force:

[tex]G\frac{m M}{r^2}=m\frac{v^2}{r}[/tex]

where

[tex]G=6.67 \cdot 10^{-11}[/tex] is the gravitational constant

m is the satellite's mass

M is the Earth's mass

r is the distance of the satellite from Earth's center

v is the tangential velocity of the satellite

By re-arranging the formula and substituting the numbers, we find r:

[tex]r=G \frac{m}{v^2}=(6.67 \cdot 10^{-11})\frac{6 \cdot 10^{24}}{(5000)^2}=1.6 \cdot 10^7 m[/tex]

However, this is the distance of the satellite from Earth's center. Since we want to know its distance from the Earth's surface, we must subtract the value of the Earth's radius:

[tex]r'=r-R=1.6 \cdot 10^7 m-6.4 \cdot 10^6 m=9.6 \cdot 10^6 m[/tex]

The satellite's distance from Earth's surface is approximately 1.28 x 10^6 m.

To find the distance of the satellite from Earth, we can use the formula for the speed of an object in circular motion, V = √(GM/r), where V is the speed of the satellite, G is the gravitational constant (6.67 × 10^-11 N(m/kg)^2), M is the mass of the Earth, and r is the distance of the satellite from the centre of the Earth. In this case V is given as 5000 m/s and M is given as 6 x 10^24 kg. Rearranging the formula to solve for r, we get r = GM/V^2.

Plugging in our given values: r = [(6.67 × 10^-11 N(m/kg)^2 * 6 x 10^24 kg) / (5000 m/s)^2] ~ 7.68 x 10^6 m. However, this is the distance from Earth’s centre. We must return it to the distance from Earth's surface by subtracting Earth's radius, resulting in r - Earth's radius = 7.68 x 10^6 m - 6.4 x 10^6 m ~ 1.28 x 10^6 m.

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Answer:

The labyrinthodont lived in Antarctica. Its a reptile thats extinct (also one of the first to walk on land)

Explanation:

The mathematical definition of work is simply the product of force and distance. That is:

Work = Force * Distance

Hence the work done here by the engine is:

Work = 65 kN * 75 m

Work = 4,875 kJ

The work done on the car when a force of 300 N is applied opposite to the direction of motion over a distance of 25 meters is -7500 Joules.

The question requires us to calculate the work done on a car when a force is applied opposite to the direction of its motion while it travels a certain distance.

Work is calculated using the formula:

Since the force is applied opposite to the direction of the car's motion, the angle θ between the force and the direction of motion is 180 degrees, and cos(180°) = -1.

Given:

The work done on the car is:

The negative sign indicates that the work is done against the car's direction of motion, which effectively slows it down.

The 2.4 m measurement of a plank might be inappropriately reported if the meter rule used doesn't have the precision to report to tenths of a meter. The proper reporting of a length measurement should match the precision of the measurement tool, and include any measurement uncertainty using significant figures.

The reading of the length of a plank measured as 2.4 m may be inappropriately reported if the measuring instrument, such as the meter rule, is not precise enough to report the measurement to the nearest tenth of a meter. When measurements yield inexact numbers, it's important to report them to the appropriate degree of precision based on the measuring tool used. A common meter stick may not have the necessary granularity to estimate beyond whole centimeters effectively, and therefore, reporting the length to a precision of tenths of a meter, like 2.4 m, might not be possible. If the meter rule used only has markings for each centimeter, the more appropriate reading would be to the nearest whole centimeter. It's also vital to include measurement uncertainty when expressing measurements, as suggested by the principles of significant figures.

Furthermore, while a meter stick is useful for measuring objects that are a few meters in length, for larger measurements, different units like kilometers might be used. For smaller measurements, centimeters or millimeters are more appropriate. The standard unit of length in the SI system is a meter, which is suitable for measuring everyday objects, like furniture or components of a small structure such as a doghouse. When a more granular measurement is required, millimeters (mm) or centimeters (cm), which are subdivisions of a meter, are used.

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Nitrogen is an important element needed for plant growth. Bacteria plays a big role in adding atmospheric nitrogen to the soil.

The nitrogen cycle is the biogeochemical process through which nitrogen is changed into a variety of chemical forms as it moves across ecosystems in the atmosphere, on land, and in the sea. It is possible to convert nitrogen using both biological and physical methods.

Fixation, ammonification, nitrification, and denitrification are significant nitrogen cycle processes. The greatest source of nitrogen, atmospheric nitrogen makes about 78% of the atmosphere on Earth. However, the biological use of atmospheric nitrogen is constrained, making it scarce in many different kinds of ecosystems.

Because the availability of nitrogen can influence how quickly important ecological processes like primary production and decomposition occur, ecologists are particularly interested in the nitrogen cycle.

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Answer:

B)   ATP

Explanation:

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It will be attracted most to your positively charged hair. This is why it will make it stand on end. Unlike charges attract, like charges repel.

Answer:

The force on a bullet that results from summing all of the forces on that bullet is known as the net force on the bullet.

Explanation:

Net force represents the overall force or the total force acting on an object.

Here, the object is bullet and the net force acting on it is the addition of all the forces acting on the bullet.

Answer:

Kinetic energy of the ball is 25 joules.

Explanation:

Mass of the snowball, m = 2 kg

Speed of the ball, v = 5 m/s

Let E is the kinetic energy of the snowball. The energy possessed due to the motion of an object is called its kinetic energy. Mathematically, it is given by :

[tex]E=\dfrac{1}{2}mv^2[/tex]

[tex]E=\dfrac{1}{2}\times 2\times 5^2[/tex]

E = 25 joules

So, the kinetic energy of ball is 25 joules. Hence, this is the required solution.

The correct flow chart for the energy transformation, when a car burns fossil fuels to accelerate, is:

chemical energy → mechanical energy → thermal energy

When a car burns fossil fuels to accelerate, the energy transformation involves several stages. Initially, the chemical energy stored in fossil fuels, such as gasoline or diesel, is released through combustion in the car's engine. This combustion process converts the chemical energy into mechanical energy, which is utilized to move the car forward by driving the pistons, crankshaft, and ultimately the wheels.

However, not all of the mechanical energy generated is efficiently converted into kinetic energy to propel the car; some of it is lost as waste heat. This waste heat represents the thermal energy produced during the combustion process and is dissipated into the environment through the car's exhaust system and engine cooling system. Therefore, the correct energy transformation sequence is: chemical energy → mechanical energy → thermal energy.

Complete Correct Question:

Fossil fuels are formed by the decomposition of dead plants and animals. Which flow chart describes the correct energy transformation when a car burns fossil fuels to accelerate?

A. chemical energy → thermal energy → mechanical energy

B. thermal energy → mechanical energy → chemical energy

C. chemical energy → mechanical energy → thermal energy

D. thermal energy → chemical energy → mechanical energy

To stop a 1000 kg car traveling at 30 m/s in 5 seconds, a force of 6000 N is required, calculated using Newton's second law of motion. The negative sign indicates deceleration.

Calculating the Force to Stop a Car

To determine the force needed to stop a 1000 kg car traveling at 30 m/s in 5 seconds, we use the formula derived from Newton's second law of motion: Force (F) = mass (m) x acceleration (a).

Step-by-Step Calculation:

Calculate the acceleration (a): Since the car comes to a stop, the final velocity (v) is 0. The initial velocity (u) is 30 m/s, and the time (t) is 5 seconds. Using the formula for acceleration: a = (v - u)/t:

a = (0 - 30 m/s) / 5 s = -6 m/s²

Calculate the force (F): Using the mass of the car (m = 1000 kg) and the acceleration (a = -6 m/s²), we apply Newton's second law:

F = m * a = 1000 kg * (-6 m/s²) = -6000 N

The negative sign indicates that the force is acting in the direction opposite to the car's motion (deceleration). The magnitude of the force is 6000 N.

With radiocarbon dating scientists compare an object carbon 14 levels with the fossil or rock for which the age measurement is required

Radiocarbon, or carbon 14, is an isotope of the element carbon that is unstable and weakly radioactive. The carbon-14 method was developed by the American physicist Willard F. Libby about 1946. It can be used to determine the age of a rock or a fossil by comparing the specimen of the required or fossil and compared it with the carbon 14 sample. Carbon 14 decays at constant rate therefore an estimate of the date at which an organism died can be made by measuring the amount of its residual radiocarbon and comparing it with Carbon 14.

Answer:

[tex]v_x = 550.5 km/h[/tex] Along North

[tex]v_y = 487 km/h[/tex] Along West

[tex]d_{west} = 1461 km[/tex] Along West

[tex]d_{north} = 1651.5 km[/tex] Along North

Explanation:

Velocity of Airplane is given as

[tex]v = 735 km/h[/tex] at 41.5 degree West of North

now we know that

Along North Direction

[tex]v_x = v cos41.5[/tex]

[tex]v_x = 550.5 km/h[/tex]

Along West direction

[tex]v_y = 735 sin41.5[/tex]

[tex]v_y = 487 km/h[/tex]

Now distance moved by the plane in 3.00 h is given as

Along west

[tex]d_{west} = 487 \times 3[/tex]

[tex]d_{west} = 1461 km[/tex]

Along North

[tex]d_{north} = 550.5 \times 3[/tex]

[tex]d_{north} = 1651.5 km[/tex]