What are the answer for the blanks

Answer:

Explanation:

The answer is D. The gravitational force of an object does NOT depend on what the object is made of.

Gravitational force depends on what the object is made of is false.  

Gravitational force is the force of attraction that acts on all matters.

The farther you are from the center of the Earth, the less gravitational force

you feel as the force is strongest at the center.

The closer objects are, the stronger the gravitational force between them as

it is a force of attraction between objects on earth. Gravity is however not

dependent on what objects are made of as it acts on all bodies present on

earth.

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Answer:

A single component that can’t be separated

brainliest please ;)

A substance is a single component that can't be separated. It can be an element or a compound, like pure water.

A substance in the realm of chemistry is generally referred to as C. a single component that can't be separated. This implies that it consists of one type of particle only, and these particles cannot be separated by simple physical means. A substance can be either an element, which contains a single type of atom, or a compound, which contains molecules formed from different types of atoms chemically bonded together. For example, pure water (H2O) is a substance.

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Answer:

297 N

Explanation:

First, find the acceleration of the ball.

Given:

Δx = 0.25 m

v₀ = 32 m/s

v = 0 m/s

Find: a

v² = v₀² + 2aΔx

(0 m/s)² = (32 m/s)² + 2a (0.25 m)

a = -2048 m/s²

Find the force exerted on the ball by the glove.

F = ma

F = (0.145 kg) (-2048 m/s²)

F = -297 N

The force exerted by the ball on the glove is equal and opposite.

-F = 297 N

Round as needed.

The average force exerted by the ball on the glove when it was caught is 297 N.

The given parameters:

The acceleration of the baseball is calculated as follows

[tex]v^2 = u^2 + 2as\\\\0 = 32^2 + 2(-0.25)a\\\\0 = 1024 - 0.5a\\\\0.5a = 1024\\\\a = 2048 \ m/s^2[/tex]

The average force exerted by the ball on the glove when it was caught is calculated as follows:

[tex]F = ma\\\\F = 0.145 \times 2048\\\\F = 297 \ N[/tex]

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Answer:

Cochlea

Explanation:

Cochlea. The [tex]cochlea[/tex] changes the sound vibrations from the middle ear into nerve signals. The nerve signals the travel to the brain via the [tex]cochlea \ nerve[/tex].

The cochlea nerve is also called the auditory nerve.

Answer:

Right before it hits the ground.

Explanation:

It has the most kinetic energy at the very end of its descent when it is moving the fastest.

The four equations for acceleration are obtained from the three equations of motion and from second law of motion.

Explanation:

Acceleration is defined as the rate of change of velocity with respect to time. So the change in velocity with respect to time can be determined using the three equations of motions.

So from the first equation of motion, v = u + at , we can determine the value of acceleration if time taken, final and initial velocity is known. The equation can be re-written as [tex]a = \frac{v-u}{t}[/tex]

Similarly, from the second equation of motion, s = ut + 1/2 at², we can determine the equation for acceleration as [tex]a = 2*\frac{s-ut}{t^{2} }[/tex]

So this is second equation for acceleration.

Then from the third equation of motion, [tex]v^{2}- u^{2} = 2* a *s[/tex]

the acceleration equation is determined as [tex]a = \frac{v^{2}-u^{2} }{2s}[/tex]

In addition to these three equation, another equation is present to determine the acceleration with respect to force from the Newton's second law of motion. F = Mass × acceleration. From this, acceleration = Force/mass.

So, these are the four equations for acceleration.

The youngster's momentum just before hitting the floor is -500 kg*m/s, and the average force acting on her during deceleration is 25,000 N.

To calculate momentum before hitting the floor, we use the formula: momentum = mass × velocity. Given the mass (m) as 50.0 kg and the height (h) as 1.00 m, we can find the initial velocity (v) using the equation for gravitational potential energy (PE = mgh) and converting it into kinetic energy (KE = 1/2mv^2). Solving for velocity, we get v = √(2gh) = √(2 × 9.81 m/s^2 × 1.00 m) ≈ 4.43 m/s.

Momentum = mass × velocity = 50.0 kg × 4.43 m/s = 221.5 kg*m/s. As she comes to rest, the change in momentum is Δp = final momentum - initial momentum = 0 - 221.5 kg*m/s = -221.5 kg*m/s. However, as the motion direction changes, the momentum also changes direction, so we take -221.5 kg*m/s as the momentum just before hitting the floor.

The average force during deceleration can be found using the impulse-momentum theorem, which states that impulse (change in momentum) is equal to force × time. Impulse = Δp = force × time. Rearranging the formula to solve for force, we get force = Δp / time. Substituting the values, force = -221.5 kg*m/s / (10.0 ms) = -22,150 N.

However, force is a vector quantity, and its direction opposes the motion, so the magnitude of the force is 22,150 N. As the force acts over 10.0 ms, the average force is 22,150 N / 10.0 ms = 25,000 N. Thus, the average force exerted on the youngster during deceleration is 25,000 N, with the negative sign indicating it opposes the motion.

Answer:

proteins

Explanation:

proteins are the most complex macromolecules. A protein is a linear molecule comprised of amino acids.

Answer:proteins

Explanation:

Proteins are macro molecules made up of amino acids

Answer:

V, since all the directions are uniform

W, since all the directions are uniform  

Y, since all the directions are uniform

hope this helps :)

Answer

A thin atmosphere does not supply much oxygen, and the heat from the sun would evaporate it, because mercury is close to the sun.

Final answer:

Mercury's close proximity to the Sun and thin atmosphere prevent it from maintaining liquid water. Its lack of substantial atmosphere and the intense solar radiation lead to extreme temperatures and no significant greenhouse effect, which are necessary for liquid water to exist.

Explanation:

Mercury's close proximity to the Sun and its thin atmosphere contribute to conditions that are not conducive to maintaining liquid water on its surface. Due to its small size and weak gravity, Mercury cannot retain a substantial atmosphere, which would be necessary to create a greenhouse effect to keep the heat in. Additionally, the intense solar radiation that Mercury receives results in surface temperatures that can reach up to 800 degrees Fahrenheit (427 degrees Celsius) during the day, which is far too hot for liquid water to exist.

The lack of a significant atmosphere means there is no atmospheric pressure to prevent water from boiling away. Without an atmosphere similar to Earth's, which includes water vapor and carbon dioxide, Mercury is unable to trap heat and maintain steady surface temperatures. Its tenuous atmosphere, composed mainly of trace gases, is incapable of supporting a cycle that would retain liquid water. Therefore, Mercury's environment does not allow for the presence of stable bodies of liquid water on its surface.

Answer:

If they are connected in series they will share the same current.

Explanation:

The circuits connected in series, share the same current and for each element passes current that flows from one element to another, so when one of these elements is damaged or removed from the circuit the current of the whole circuit is interrupted and no element will work. The attached image shows a circuit connected in series and can be analyzed that the same current flows through each element.

Answer:

A. replacing the magnet with a stronger magnet

Explanation:

In order to increase the force on the wheels, Alice needs to increase the force acting between the magnet and the electromagnet. There are several ways that she could do this:

replace the magnet with stronger magnet

increase the number of loops in the electromagnet's coil

increase the electric current running through the electromagnet

decrease the distance between the magnet's poles and the electromagnet

Answer:

5.4 g

Explanation:

The stone is already in motion, so the only energy it has is kinetic. The formula for kinetic energy is:

[tex]KE=\frac{1}{2} mv^{2}[/tex]

You can substitute the 390 J in for KE and 12 m/s in for v. After that, the equation looks like:

[tex]390=\frac{1}{2} m12^{2}[/tex]

Then do basic algebra and m=5.4 g

Answer:

[tex]P_{f} = 12 \ kg.m/s[/tex]

Explanation:

Given data:

Momentum of moving model train, [tex]P_{1} = 12 \ kg.m/s[/tex]

Mass of the stationary model train, [tex]m = 2 \ kg[/tex]

Initial speed of the stationary model train, [tex]v = 0[/tex]

Assume there is no external force is acting on the given train system.

In this case, the total linear momentum of the trains would be conserved.

Let the final linear momentum of the trains be [tex]P_{f}.[/tex]

Thus,

[tex]P_{i} = P_{f}[/tex]

[tex]P_{1} + P_{2} = P_{f}[/tex]

[tex]P_{1} + mv = P_{f}[/tex]

[tex]12 + 2 \times 0 = P_{f}[/tex]

[tex]\Rightarrow \ P_{f} = 12 \ kg.m/s.[/tex]

The total momentum of both cars after the collision is 12 kg•m/s.

The momentum of an object is the product of its mass and velocity. In this case, the initial momentum of the moving model train car is 12 kg•m/s while the other car is stationary, so its initial momentum is 0 kg•m/s.

According to the law of conservation of momentum, the total momentum before the collision is equal to the total momentum after the collision. Therefore, the total momentum of both cars after the collision is 12 kg•m/s.

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Answer:an insulator does not allow electrons to move through it

Explanation:

Answer:

It has a high resistivity because it opposes the movement of electrons.

Explanation:

APEX

Complementary colors are pairs of colors that, when mixed together, produce white light. They are located opposite each other on the color wheel.

The correct answer is c) complementary colours. Complementary colors are pairs of colors that, when mixed together, produce white light. These colors are located opposite each other on the color wheel. For example, red and cyan, green and magenta, and blue and yellow are complementary color pairs.

Mixing complementary colors can be observed in additive color mixing, which is the process of combining different colors of light. For instance, if you mix red and cyan lights together, you will see white light.

Complementary colors are also used to create contrast and make colors stand out when they are placed next to each other. This concept is often used in design and visual arts.

Final answer:

To find your father's mass, divide the force (484 N) by the acceleration due to gravity (9.8 m/s^2). The mass is approximately 49.4 kg (to the nearest tenth).

Explanation:

To determine your father's mass, we can use Newton's second law of motion, which states that force equals mass times acceleration (F = ma). In this case, the force is 484 N (Newtons) and the acceleration is the acceleration due to gravity, which is approximately 9.8 m/s^2. Rearranging the formula, we get mass = force / acceleration, which gives us mass = 484 N / 9.8 m/s^2. Calculating this, we find that your father's mass is approximately 49.4 kg (to the nearest tenth).

Answer:

Because of its involvement in the Earth's carbon cycle and nitrogen cycle, the biosphere influences the amounts of some of the major greenhouse gases such as methane, carbon dioxide, and nitrous oxide.

Answer:

The health of the air and atmosphere affects the biosphere because if the atmosphere/air turned poisonous or something between those lines, most of the living organisms would die. In other words, the damaged air would affect the biosphere.

Explanation:

*My answer is my explanation ._.*

Answer:

B. 0-35 m/s

Explanation:

Because speed does not need a direction so it would be 0-35 m/s A and B has a direction, velocity needs a direction and the question ask not velocity. C technically it does not have a speed

Answer: D reflected

Explanation:

Answer:

Correct option (D)

Explanation:

The shiny or smooth surface is an interface that acts as a perfectly reflecting surface. When a light ray or a beam of light is allowed to incident onto it, it is reflected to the same medium.

Answer:it is a double replacement reaction

Explanation:

It's a double replacement reaction

False

Explanation:

The Unit of Frequency is Hertz (Hz)

Frequency in layman’s language can be said as a number of times a particular event repeat itself in unit time.

E.g. Supposing a hypothetical situation in which a boy cracks 5 nuts every minute, then his frequency can be said to be 5 nuts /min

However, in physical dimensions, the frequency is always calculated in terms of a second (as a measure of unit time).

Hence the Standard unit (SI)of Frequency is named after German origin physicist Heinrich Hertz. In simple terms, 1 Hertz denotes the event repeats itself one time per second and in physics domain one cycle per second.

Answer:

Zero

Explanation:

According to Newton's second law of motion, the net force on an object is equal to the product of its mass and its acceleration:

[tex]F=ma[/tex] (1)

where

F is the net force

m is the mass

a is the acceleration

For the stone in this problem, we have:

m = 2.5 kg is its mass

We are also told that the velocity of the stone is constant (1.2 m/s): we know that the acceleration is equal to the rate of change of velocity, therefore, this means that the acceleration (because the change in velocity is zero):

[tex]a=0[/tex]

Therefore, from equation (1), we get that the total net force on the stone is zero:

[tex]F=0[/tex]

Which means that the upward force on the stone balances the downward force of gravity.

Final answer:

To lift a 2.5kg stone at a constant velocity, the man's hand must apply a force equal to the weight of the stone, which is 24.5 N, countering the gravitational pull without causing any acceleration.

Explanation:

The magnitude of the total force of the man's hand on the stone can be determined by Newton's second law of motion which states that the force is equal to mass times acceleration (F=ma). However, since the stone is moving at a constant velocity, the acceleration is zero, and thus the only force exerted by the man would be to counteract the force of gravity on the stone. The force of gravity is calculated as the mass of the stone multiplied by the acceleration due to gravity (g = 9.8 m/s2).

The force of gravity (also known as weight) on the stone can be calculated as follows:
Fg = m × g = 2.5 kg × 9.8 m/s2 = 24.5 N.

Therefore, the magnitude of the total force that the man's hand must apply on the stone to lift it at a constant velocity is 24.5 N, which is exactly the same as the gravitational force acting on the stone.

Answer:

barometer

Explanation:barometer

A barometer is a scientific instrument used in meteorology to measure atmospheric pressure. A simple barometer consists of a long glass tube (closed at one end, open at the other) filled with mercury and turned upside down into a container of mercury.

A barometer is the instrument that measures atmospheric pressure. It operates by counterbalancing the weight of a column of mercury against the atmospheric pressure. The level of mercury changes based on the atmospheric pressure.

The instrument that measures atmospheric pressure is called a barometer. This device was invented in the 17th century by the Italian scientist Evangelista Torricelli. It works by balancing the weight of a column of mercury against the atmospheric pressure. When the pressure is high, it pushes the mercury higher up the tube, and when it is low, the mercury drops. Digitals variations exist now and are widely used also.

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Answer:

Explanation:

The time period of a simple pendulum: It is defined as the time taken by the pendulum to finish one full oscillation and is denoted by “T”.

The period of simple pendulum is given as

T=2π√l/g

Increasing the density of the object implies that the mass has increased

Because density is mass/volume

The period is independent on the density of the object, it depends on the length of the string and the acceleration due to gravity. So the period remains the same.

2. Acceleration

The acceleration of a simple pendulum is given as

a=-gSin θ

Therefore the acceleration is independent on the density of the object, it depends on the acceleration due to gravity and the angle of displacement.

Then, the acceleration remains the same.

So the answer is Option C,

Same

Same

Final answer:

Replacing a sphere with another of greater density in a pendulum, without changing the oscillation angle, does not affect the pendulum's period or maximum acceleration. Both remain the same because they are independent of the pendulum bob's mass or density.

Explanation:

The period of a pendulum is given by the formula T = 2π√(l/g), where T is the period, l is the length of the pendulum, and g is the acceleration due to gravity. This formula shows that the period is independent of the mass or density of the pendulum bob. Hence, replacing a sphere in a pendulum with another sphere of greater density but the same size, and oscillating both at the same angle, does not change the period of the pendulum's oscillation. The maximum acceleration of a pendulum occurs at its lowest point and is given by a = g√(sinθ), where θ is the oscillation angle. Since the acceleration depends only on gravity and the angle of oscillation, which remain constant, the maximum acceleration of the pendulum will also remain the same irrespective of the mass or density of the bob.

Answer:360 meters per second

Explanation:

Speed of the wave=frequency x wavelength

Speed of the wave=1200 x 0.3=360m/s

Answer:

The human ear is not sensitive to every frequency of sound, rather, our hearing range is from 20Hz to 20,000Hz. This means sound frequencies outside this range are not audible to the human ear, which is why not every sound produced is heard. This is quite a blessing because if we could hear every vibrating body, then our ears would never stop listening: we won't be able to distinguish 'important sounds' from unimportant ones, rendering our ears effectively useless. Perhaps this is why we have a hearing range in the first place: sounds of our friends and our foes lie in 20Hz-20kHz range.

Answer:

84.82N/C.

Explanation:

The x-components of the electric field cancel; therefore, we only care about the y-components.

The y-component of the differential electric field at the center is

[tex]$dE = \frac{kdQ }{R^2} sin(\theta )$[/tex].

Now, let us call [tex]\lambda[/tex] the charge per unit length, then we know that

[tex]dQ = \lambda Rd\theta[/tex];

therefore,

[tex]$dE = \frac{k \lambda R d\theta }{R^2} sin(\theta )$[/tex]

[tex]$dE = \frac{k \lambda d\theta }{R} sin(\theta )$[/tex]

Integrating

[tex]$E = \frac{k \lambda }{R}\int_0^\pi sin(\theta )d\theta$[/tex]

[tex]$E = \frac{k \lambda }{R}*[-cos(\pi )+cos(0) ]$[/tex]

[tex]$E = \frac{2k \lambda }{R}.$[/tex]

Now, we know that

[tex]\lambda = 3.0*10^{-9}C/m,[/tex]

[tex]k = 9*10^9kg\cdot m^3\cdot s^{-4}\cdot A^{-2},[/tex]

and the radius of the semicircle is

[tex]\pi R = 2.0m,\\\\R = \dfrac{2.0m}{\pi };[/tex]

therefore,

[tex]$E = \frac{2(9*10^9) (3.0*10^{-9}) }{\dfrac{2.0}{\pi } }.$[/tex]

[tex]$\boxed{E = 84.82N/C.}$[/tex]