Sciencium-380 has a half-life of 3 days. If you started with a 100 gram sample, how much Sciencium-380 will remain after 9 days?

Answer:

The sphere is positively charged

Explanation:

This is because when the positively charged rod is brought near the metal rod A, the electrons in metal rod A and sphere B are attracted towards it into metal rod A while the positive charges in the are repelled into sphere B. So, when the charged rod is withdrawn, and metal rod A and sphere B are separated, metal rod A is now negatively charged, but sphere B is positively charged.

So, sphere B is positively charged.

Final answer:

After the process of charging by induction and separation while a positively charged rod is nearby, sphere B ends up being positively charged due to a deficit of electrons.

Explanation:

The question revolves around the concept of charging by induction, a fundamental concept in electrostatics within physics. In this situation, a metal rod A and a metal sphere B, both initially neutral and on insulating stands, are in contact. A positively charged rod is brought near rod A, causing electrons in the metal rod and sphere to be attracted towards the end closest to the charged rod. This leaves the portion of rod A farthest from the charged rod, and sphere B, positively charged due to the deficit of electrons.

When A and B are separated while the charged rod is still nearby, this separation of charges is maintained: rod A will retain a surplus of electrons (negatively charged) near the side of the positively charged rod, and sphere B will be left positively charged due to a deficit of electrons. Once the positively charged rod is removed, both objects retain their induction-caused charges. Therefore, sphere B ends up being positively charged.

Answer:

yes

Explanation:

Answer:

with what

Explanation:

Answer:

The answer is V =delta U over q

Explanation:

Electric potential is defined as the magnitude of the electric field through the potential energy that a charge would have if placed at that point. Mathematically, the potential is defined with the following expression:

[tex]V=\frac{E_{p} }{q}[/tex]

where:

V is the electric potential. Its unit is Julius by Coulomb (J/C).

Ep is the electric potential energy that has a charge

q is the charge

In the question Ep = ΔU

Answer:

The answer is V=kq/d

Explanation:

The electrostatic potential is defined in terms of work done in taking a unit positive charge from infinity to the point in question.

V=kq/d

Where d= distance from infinity to the point in question

k= constant of proportionality

q= attracting charge

The electric potential is measured in volts

The question is incomplete, the complete question is;

Shah did not trust the results of an experiment that she had read about, so she is conducting the experiment herself. She goes through the same set of steps and measures the effect of the amount of sugar on a single organism.

Which best describes what Shah is doing?

replication

repetition

both repetition and replication

neither repetition nor replication

Answer:

replication

Explanation:

Replication in scientific experiments refer to the process of going through all the steps in an experiment in order to obtain the same set of results initially obtained.

All scientific experiments is expected to be replicated under identical experimental conditions. If the results obtained by a scientific investigation cannot be replicated under identical circumstances by other scientists, then the scientific data must be taken with a pinch of salt.

Shah is expected to obtain almost exactly the same data as the original researchers who first published the data.

Answer:

The correct answer is replication

Explanation:

Answer:

approx 2.23 seconds

Explanation:

150/67

s=d/t and t=d/s

Final answer:

The speed of a swing's circular motion in an amusement ride can be decreased by increasing air resistance, reducing the propelling force, altering the angle of the swing's support, or increasing the swing's mass without an increase in force.

Explanation:

The speed of a swing's circular motion in an amusement park ride can be decreased through various means. One way that the speed of the swing's circular motion can be reduced is by increasing the air resistance acting against the swing. This can be done, for example, if the swings have a wider surface area or if flaps are added that catch more wind. In addition, reducing the force that propels the swing can also decrease speed. On most rides, this would involve slowing down the motor or mechanism that is causing the ride to spin. This reduction in propelling force would result in a decreased centripetal force on the swings, thus reducing their speed.

Another factor that could decrease the speed of the swing's circular motion is the angle of the supporting chains or rods. If they are designed to hang more vertically rather than being allowed to tilt outwards, the centripetal acceleration required to keep the ride moving in a circle would decrease, resulting in a slower rotation speed of the swings. Lastly, an increase in the mass of the swings without an increase in the propelling force would also result in slower speeds due to the greater inertia that needs to be overcome to maintain the circular motion.

The content of the question suggests that the student is seeking guidance on how to answer exam questions effectively. To address the question fully, one would need to provide strategies for efficiently utilizing the allotted time, ensuring completeness in responses, and making sure answers are structured and supported by evidence. Unfortunately, without a specific academic question provided, it's not possible to offer a precise answer that pertains to a particular field of study or educational level. Therefore, I'll decline to provide an answer in this case since it does not correspond with an actual schoolwork question.

When approaching any exam or academic task, it is crucial to read and comprehend all parts of the question carefully, structuring the answer in a complete and comprehensive manner. Answers should be articulated clearly and concisely, supported by evidence or examples when necessary, and should adhere to word limits or guidelines provided in the exam. It's also essential to be mindful of the subject and grade level to tailor the response appropriately. However, it's important to note that as a guidance response, this does not tackle a specific academic subject or grade as no concrete question was presented to address.

Answer:

176ft/s

Explanation:

Speed of a wave is a function of the frequency and wavelength of the wave. It is expressed mathematically as:

V = fλ where:

V is the speed of the wave

f is the frequency

λ is the wavelength

Given f = 16Hz, λ = 11ft

V = 16×11

V = 176ft/s

Answer:

Continuously changing magnetic field of the Sun

Explanation:

The Sun is made up of plasma and is not solid like our planet. When it rotates the whole of the Sun doesn't rotate with same speed. The equatorial part completes the rotation in just 25 days whereas the poles do it in 35 days. Due to this the magnetic field lines entangle and reorganize them regularly.

The places where the field line exit and enter the surface of the Sun, temperature drops by around 1000 K thus these spots appear black in color and are known as Sun spots.

The magnetic field is not permanent as it will keep changing due to differential rotation. This will result in the change in the no. of location of Sun spots.

If we track the no. of sunspots visible with respect to years we will notice that they follow a cycle of 10.6 years. This is known as Solar cycle in which there comes a solar minima when we see very few sunspots. When it is solar maxima we can see more than 100 sunspots.

Answer:

140°

Explanation:

The law of reflection states that the angle of redlection equals to the angle of incidence.

When light rays hit surface at 20°, they also leave the surface at the same angle

Since the whole surface has 180° then subtracting these two angles from total angle gives the the angle between the incident and reflected rays.

180°-20°-20°=140°

The angle of incidence and reflection are equal hence 140/2=70°

The question needed the angle between the incident and reflected rays which is already calculated as 140°

Answer:

the amount of time covered by water or C  

Answer:

the amount of time covered by water

Explanation:

I just finished the quiz on ED

Answer:

Power = 2.22W

Explanation:

We are given;

Length of Solenoid; L = 75cm = 0.75m

Diameter of copper wire; d = 0.1 cm = 0.001m

B = 8 mT = 0.008T

From Ampere's law formula,

B = μo•I•N/L

Where;

B is magnetic field

I is current

N is number of turns

L is length of Solenoid

μo is vacuum permeability amd it has a constant value of 4π x 10^(-7) H/m

Now, let's find N.

N is given by; N = L/d

N = 0.75/0.001 = 750 turns

From earlier, B = μo•I•N/L

Thus, let's make I the subject;

I = B•L/(μo•N)

I = (0.008 x 0.75)/(4π x 10^(-7) x 750)

I = 0.006/(0.0009424778) = 6.367 A

Now, let's find the resistance; R.

The resistance; R is given by the formula;

R = ρ•N•π•d/A

Where;

ρ is resistivity of copper wire and has a value of 1.68 x 10^(-8) Ω.m

A is the area

Now area is given as; A = πd²/4

Putting this in the resistance equation gives;

R = ρ•N•π•d/(πd²/4)

This gives;

R = (4ρ•N•π•d)/(πd²)

This leads to; R = (4ρ•N)/(d)

Plugging in the relevant values, we have;

R = (4 x 1.68 x 10^(-8) x 750)/0.001

R = 0.0504 Ω

Now, we know that the formula for Power is;

P = I²R

where I is current and R is resistance.

Thus, Power = 6.637² x 0.0504 = 2.22 W

Answer:

Explanation:

Force = mass * acceleration.

Answer:

Explanation:

Given that,

Weight of jet

W = 2.25 × 10^6 N

It is at rest on the run way.

Two rear wheels are 16m behind the front wheel

Center of gravity of plane 10.6m behind the front wheel

A. Normal force entered on the ground by front wheel.

Taking moment about the the about the real wheel.

Check attachment for better understanding

So,

Clock wise moment = anti-clockwise moment

W × 5.4 = N × 16

2.25 × 10^6 × 5.4 = 16•N

N = 2.25 × 10^6 × 5.4 / 16

N = 7.594 × 10^5 N

B. Normal force on each of the rear two wheels.

Using the second principle of equilibrium body.

Let the rear wheel normal be Nr and note, the are two real wheels, then, there will be two normal forces

ΣFy = 0

Nr + Nr + N — W = 0

2•Nr = W—N

2•Nr = 2.25 × 10^6 — 7.594 × 10^5

2•Nr = 1.491 × 10^6

Nr = 1.491 × 10^6 / 2

Nr = 7.453 × 10^5 N

Final answer:

The normal force exerted by the ground on the front wheel is 3.42 x 10^6 N. The normal force exerted by the ground on each of the two rear wheels is 4.02 x 10^5 N.

Explanation:

To determine the normal force exerted by the ground on the front wheel, we need to consider the torque balance. The torque exerted by the weight of the aircraft is equal to the torque exerted by the normal force. Since the weight acts at the center of gravity and the normal force acts at the front wheel, the torque equation becomes: (2.25 x 10^6 N)(10.6 m) = N(front wheel)(16.0 m). Solving for N(front wheel), we find that it is 3.42 x 10^6 N.

To determine the normal force exerted by the ground on each of the two rear wheels, we can use the fact that the sum of all the vertical forces should be equal to the weight of the aircraft. So, N(front wheel) + 2N(rear wheels) = 2.25 x 10^6 N. Substituting the value of N(front wheel) we found earlier, we can solve for N(rear wheels), which is 4.02 x 10^5 N for each rear wheel.

Answer:

180 watt

Explanation:

P = V x I

= 1.5 x 120

= 180 Watt

Answer:

3 m/s^2

Explanation:

acceleration= Change in velocity/time

= 30-0 / 10

= 30/10

=3 m/s^2

The reaction quotient (Q) is used to determine whether a system is at equilibrium by comparing it to the equilibrium constant (K).

The reaction quotient (Q) is used to determine whether a system is at equilibrium by comparing it to the equilibrium constant (K).

Here's how the reaction quotient is used to assess the system's status:

1. If Q = K, the system is at equilibrium. This means that the concentrations of the reactants and products in the system are such that the forward and reverse reactions occur at the same rate.

2. If Q < K, the system is not at equilibrium and will shift to the right to reach equilibrium. This indicates that the concentrations of the products are lower than what is required for equilibrium, so the forward reaction will be favored.

3. If Q > K, the system is not at equilibrium and will shift to the left to reach equilibrium. This suggests that the concentrations of the products are higher than what is needed for equilibrium, so the reverse reaction will be favored.

By comparing the reaction quotient (Q) to the equilibrium constant (K), we can determine whether a system is at equilibrium, and if not, in which direction the reaction will proceed to establish equilibrium.

Answer:

The electrostatic force between two objects depends on two factors.

The first factor is the charge, if the charge of the two objects is large then the magnitude of the electrostatic force between them will also be large.

The second factor is the distance, if the distance between the charge is less the magnitude of electrostatic force will be large vice versa.

We can say that the electrostatic force is directly proportional to charge and inversely proportional to the separation between the charge.

Answer:

277983.465 N

Explanation:

[tex]\rho[/tex] = Density of seawater = [tex]1030\ kg/m^3[/tex]

g = Acceleration due to gravity = 9.81 m/s²

h = Depth = 29 m

w = Force = 390 N

A = Area = [tex]0.95\ m^2[/tex]

Force in the system would be

[tex]F=(\rho gh)A-w\\\Rightarrow F=(1030\times 9.81\times 29)\times 0.95-390\\\Rightarrow F=277983.465\ N[/tex]

The downward force must they exert on the hatch to open it is 277983.465 N

Answer:

Explanation:

Answer:

Example A will appear green, while Example B will appear greenish-blue.

Explanation:

The color of an object depend on which part of the visible light it reflects towards the observer. Visible light is made up of seven colors: Violet, Indigo, Blue, Green, Yellow, Orange, and Red (VIBGYOR). If all the colors will be reflected object will appear white. If all the colors are absorbed the object appears black. In example A, only green color is being reflected so it will appear Green.

In example B, green and blue are being reflected so the object will appear a mix of green and blue. This color is cyan (greenish blue).

Answer:

Energy is transferred from the Sun to the Earth through radiation. As water is heated by the sun, it evaporates. The water vapor then condenses and forms clouds in the atmosphere.

Explanation:

When the Sun's energy moves through space, it reaches Earth's atmosphere and finally the surface. This radiant solar energy warms the atmosphere and becomes heat energy. This heat energy is transferred throughout the planet's systems in three ways: by radiation, conduction, and convection.

The energy transferred from the sun to the earth in the form of electromagnetic radiation. This radiant energy warms earth.

Radiation can be described as the energy that moves from one place to another in a form that can be defined as waves or particles.

There is a wide range of electromagnetic radiation from which visible light is one example.

Radiation with the highest energy like ultraviolet radiation, X-rays, and gamma rays. X-rays and gamma rays exhibit a lot of energy.

When radiations interact with atoms, they remove electrons and cause the atom to become ionized. Radiation can be transferred heat energy through space by electromagnetic radiation.

Most of the radiations that comes to the earth from the sun are invisible. Only a small part comes as visible light because light is composed of waves of different frequencies. Therefore, electromagnetic radiations coming from the sun warm the earth.

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Answer:

Velocity, height

Explanation:

Answer: it should be velocity and height (the third answer)

The first part of the question is missing and it says;

Electrons are made to flow through the copper strip of as shown in the attached image . The strip's cross section is 1.00 mm high and 30.5 mm wide, and the strip is placed in a magnetic field B = 4.00T

Answer:

Hall potential difference = 5.6 x 10^(-6) V

Explanation:

We are given that;

Thickness of copper strip; L = 1mm = 1 x 10^(-3)m

Width of copper strip; W = 30.5mm

Magnetic field; B = 4T

Current in the strip = 19A

Number density; n = 8.46 × 10²⁸ m⁻³

Formula for number density of charge is given by;

n = (B•I)/(V•L•e)

Where;

B is uniform Magnetic field

I is current

V is potential difference

L is thickness of strip

e is electron charge = 1.6 x 10^(-19)C

Thus, let's make V the subject;

V = (B•I)/(n•L•e)

V = (4 x 19)/(8.46 × 10²⁸•1 x 10^(-3)•1.6 x 10^(-19))

V = 76/(13.536 x 10^(6)) = 5.6 x 10^(-6) V

Answer:

A,B,E

Explanation:

Magnetic fields are produced by moving electric charges.

Electromagnet is a temporary magnet. It is made by winding wire around an iron core. As current flows in the coil the iron becomes a magnet, and when the current is turned off it looses it's magnetic properties.

Magnetic fields are produced by moving electric charges.

Everything around us is made up of atoms, and each atom has a nucleus made of neutrons and protons with electrons that orbit around the nucleus. The orbiting electrons are tiny moving charges. A small magnetic field is created around each atom.

Magnetic fields produced from charges, similarly to electric fields, but are different in that the charges must be moving.

Long straight wire carrying a current is the example of a moving charge that generates a magnetic field.

Therefore,

Moving electric charges produced magnetic field.

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Answer:

V=18 m/s

Explanation:

Impulse is represented by Δp. It can be expanded such as: Δp = m(v-u) , where m is mass, v is final velocity, and u is initial velocity. (sorry ib physics things)

You can substitute your given values into the equation.

Δp = -2000 (i kept this as negative since it is going the opposite direction to your initial velocity)

m = 1000 kg

u = 20 m/s

1.  -2000 = 1000(v-20)  --> -2000/1000

2.   -2 = v-20 --> -2 + 20

3.  v = 18 m/s

You can always double check your answer by substituting it back into the original equation to make sure the Δp = -2000

Answer:

Okay let say from the diagram you have more force come in from the B point of the magnet and release out from A point of the magnet. so lets say north is always the attractive spot and south is your releasing spot.

Explanation:

meaning from magnet the north pole attracts objects and the south pole repeal object.

Answer:

The amount of caffeine left after one half life of 5 hours is 15 oz.

Explanation:

Half life is the time taken for a radioactive substance to degenerate or decay to half of its original size.

The half life of caffeine is 5 hours. So ingesting a 30 oz, this would be reduced to half of its size after the first 5 hours.

So that:

After one half life of 5 hours, the value of caffeine that would be left is;

                                    [tex]\frac{30}{2}[/tex] = 15 oz

The amount of caffeine left after one half life of 5 hours is 15 oz.

Answer:

OPTION A, Kelvin Thermometer is Incorrect

Explanation:

Now, if you consider best two out of three results, then celsius and Fahrenheit thermometers read the same value, meaning both are right.

1) K = °C + 273

K = 100°C + 273

k = 373°C

Kelvin Thermometer is Incorrect

2) [tex]C = \frac{F - 32}{1.8}[/tex]

when we have 212°F

[tex]C = \frac{212 - 32}{1.8} \\\\= 100^\circ C[/tex]

which is correct