You weigh 650 N.
What would you weigh if the Earth were
five times as massive as it is and its radius
were five times its present value?
Answer in units of N.

100,000 centimeters or 10⁵ centimeters are in a kilometer.

Any arbitrarily selected and widely used reference standard for length measurement is referred to as a unit of length. The metric system, which is adopted by every nation on earth, is the most widely utilized in modern times.

We know that:

1 kilometer = 1000 meters.

And 1 meter = 100 centimeters.

So, 1 kilometer = 1000 meters

1 kilometer = 1000 × 100 centimeters

1 kilometer = 100,000 centimeters

1 kilometer = 10⁵ centimeters.

Hence, 100,000 centimeters or 10⁵ centimeters are in a kilometer.

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Answer:

f = 1219/min = 1219 / 60 / sec = 20.32 / sec

T = 1/f = 1 / 20.32 = .04922 sec      period of 1 revolution

t = 12.9 / 360 * .04922 = .001764 sec    time to pass between disks

V = S / t = .97 m / .001764 = 550 m/sec

The attraction of the water is because of electrostatic induction. Option A

We know that it is possible for static electricity to be induced on a body. In the first case, the charge that we have obtained is one that we have gotten by the purpose of friction. That is the running  of one material against the other.

In the second case, we can see that there is a transfer of charge from one material to the other without the materials actually touching. This is charging by induction.

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Answer:

F1 = G M1 M2 R^2     force between objects M1 and M2

F2 = G M1 * 6 M2 / (3 * R)^2

F2 = 6 / 9 * F1

F2 = 2/3 * 610 n = 407 n

m(small cart) = 250 g = 0.25 Kg

vi(small cart) = 1.60 m/s

m(large cart) = 3.00 kg

vi(large cart) = 0 m/s

vf(large cart) = ?

The speed of the larger cart after the collision is 0.084 m/s.

The principle of conservation of momentum states that the total momentum of an isolated system remains constant if no external forces act on the system. In this case, the momentum of the two carts before the collision is equal to the momentum of the two carts after the collision. We can use this principle to find the speed of the larger cart after the collision.

Let's call the speed of the larger cart after the collision "v".

Before the collision:

momentum = m1 * v1 = (250 g) * (1.60 m/s) = 0.25 kg * 1.60 m/s

After the collision:

momentum = (0.25 kg * 0.840 m/s) + (3.00 kg * v) = 0.25 kg * 0.840 m/s + 3.00 kg * v

Setting the before and after momenta equal:

0.25 kg * 1.60 m/s = 0.25 kg * 0.840 m/s + 3.00 kg * v

Solving for v:

v = (0.25 kg * 1.60 m/s - 0.25 kg * 0.840 m/s) / 3.00 kg

v = (0.25 kg * 0.760 m/s) / 3.00 kg

v = 0.25 kg / 3.00 kg * 0.760 m/s

v = 0.084 m/s

So the speed of the larger cart after the collision is 0.084 m/s.

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Answer:

Explanation:

velocity after 5 seconds is 4 x 5 = 20 m/s

KE formula = 0.5mv²

= 0.5 x 800 x 400

= 400²

= 160000 J

or, 160kJ

(a) The mechanical energy lost due to friction force acting on the runner is 936.4 J.

(b) The distance travelled by the runner as he slides is 1.82 m.

The acceleration of the runner is calculated by applying Newton's second law of motion as shown below.

ma = μmg

a = μg

where;

a = ( 0.7 x 9.8 m/s² )

a = 6.86 m/s²

The distance travelled by the runner is calculated as;

v² = u² - 2as

where;

0 = u² - 2as

s = u² / 2a

s = ( 5² ) / ( 2 x  6.86 )

s = 1.82 m

The mechanical energy lost due to friction force is calculated as;

W = Fs

W = mas

W = ( 75 kg x 6.86 m/s²  x  1.82 m )

W = 936.4 J

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From conservation of energy, the distance the spring should be compressed is 2 cm

The work done on an object is the product of force and distance in the direction of the force.

Given that a student attempts to fire a small steel sphere (mass = 250 g) into a cup from a spring-loaded cannon affixed to a table.

The cup is located 74.7 cm from the table's edge.

If compressing the spring by 2.2 cm results in the sphere travelling 82.2 cm, then,

the elastic potential energy = work done on the object

1/2ke² = Fs

Where F = mg = 0.25 × 9.8

F = 2.45 N

1/2 × k × (2.2/100)² = 2.45 × 82.2/100

0.000242K = 2.0139

k = 2.0139/0.000242

k = 8321.9 N/m

The distance the spring should be compressed in order to project the sphere into the cup can be known by using the same formula since k is the same elastic constant.

1/2ke² = Fs

1/2 × 8321.9 × (e)² = 2.45 × 74.7/100

4161e² = 1.83015

e² = 1.83015/4161

e² = 0.00044

e = √0.00044

e = 0.02 m

e = 2 cm

Therefore, the spring should be compressed by 2 cm in order to project the sphere into the cup.

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The rate of change in the Earth-Moon distance does this correspond to  1.1977e-9 m/s.

The difference between Kepler and Newton laws is that Kepler law describes planetary motion around the Sun, whereas Newton laws describe an object's motion and its relationship to the force acting on it.

T= sqrt ((4 × pie^2  × r^3)/GM)

= 2 × 3.1416 × (r^3/GM)^0.5

T = 2 × 3.1416 × (r^3)^0.5 (1/(6.67e-11 × 5.97e24))^0.5

T = 3.1487e-7 (r^3)^0.5

dT/dr = 3.1487e-7 × (0.5) × (3 r^2) × (r^3)^-0.5

dT/dr = 3.1487e-7 × (0.5) × (3) × (r)^0.5

dT/dr = 3.1487e-7 × (0.5) × (3) × (384400e3)^0.5

dT/dr = 0.009260069 s/m

dr = 35e-3/0.009260069

dr = 3.77967 meters per century

v = dr/t

= 3.779669/(100 × 365.25 × 24 × 60 × 60)

= 1.1977e-9 m/s

Thus, The rate of change in the Earth-Moon distance does this correspond to 1.1977e-9 m/s.

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By expanding from 40 atm to 1 atm, helium gas is cooled from 20 °C to 10 °C. If there is 1.4 mol of helium;(a) The final volume of helium is 28.7 L.(b) The change in internal energy is -453.8 kJ.

Volume is a measure of the amount of three-dimensional space an object takes up. It is measured in units of cubic units, such as cubic meters, cubic centimeters, or cubic inches. Volume is often used to measure the size of liquids, solids, and other substances. It is also used to calculate the amount of space an object occupies, such as a room, box, or container. Volume is a useful tool to calculate the amount of an ingredient in a recipe or mixture, or to measure the capacity of a storage container.

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Answer:

Yes - If a charge of +Q is removed from one side of a battery, a charge of -Q must be removed from the other side of the battery, the charges on the intervening capacitors are likewise equal.

Answer:

Deep space exploration poses several technological challenges, including:

Explanation:

Maintaining contact with spacecraft is one of the fundamental difficulties in deep space exploration. Due to the time it takes for a signal to travel, communication delays increase as a spacecraft gets further away from Earth. The spacecraft's control and operation may be challenging as a result.

Flyby: Spacecraft frequently utilize the flyby approach to explore deep space. In this method, a spacecraft flies by a celestial body at a high speed while utilizing the planet's gravity to alter its course. To ensure that the spacecraft passes by at the appropriate altitude and speed, this strategy needs exact navigation and timing.

Slingshot effect: The slingshot effect, often referred to as gravity assist, is a method for accelerating a spacecraft by drawing on the gravitational pull of a planet or other celestial body. To make sure that the spacecraft does not collide with the celestial body or fly out into deep space, the trajectory must be carefully predicted.

Orbits used for Hohmann transfers: These orbits are effective for moving a spacecraft from one planet to another. To guarantee that the spacecraft is in the proper location at the appropriate moment to execute the transfer, this procedure, however, need exact calculations.

Power and propulsion: To function for long periods of time during deep space exploration, spacecraft need to have a dependable source of power and propulsion. Solar panels can provide electricity, but they are less effective in deep space, where the sun's light is faint. Alternative energy sources exist, however nuclear power has regulatory and safety issues. Propulsion systems must also be able to resist the severe conditions of deep space and function for extended periods of time.

Radiation protection: High-energy particles and radiation from deep space may kill humans and destroy electronic equipment. To mitigate against these risks, spacecraft must be developed, which can be challenging and expensive.

Cost: Deep space exploration is an expensive undertaking, requiring large investments in technology development, spacecraft design, and mission operations.

These are some of the technological challenges faced in deep space exploration, but it is important to note that many other challenges exist and new challenges will continue to arise as we explore more of the universe.

Answer: I hope this helps

Explanation:

The law is named after Amedeo Avogadro who, in 1812, hypothesized that two given samples of an ideal gas, of the same volume and at the same temperature and pressure, contain the same number of molecules.n 1811 Avogadro put forward a hypothesis that was neglected by his contemporaries for years. Eventually proven correct, this hypothesis became known as Avogadro's law, a fundamental law of gases.On this day in 1776, Amedeo Avogadro, an Italian scientist known as one of the founders of physical chemistry, was born. Avogadro studied the properties of electricity and liquids, but his best known work was with gases. It was known by 1809 that all gases, when heated equally, expand by the same amount.

Kepler's third law states that the square of the orbital period of a planet is directly proportional to the cube of the semi-major axis of its orbit.

T^2 = 4 * d^3 * (m1 + m2)^2 / G

Generally, Kepler's third law states that the square of the orbital period of a planet is directly proportional to the cube of the semi-major axis of its orbit. In the case of two celestial bodies orbiting their center of mass, we can use Newton's laws of motion to derive the general form of Kepler's third law.

Using Newton's second law, we can write the centripetal force acting on each body as: F = m * a = m * v^2 / r

where

The gravitational force between the two bodies is given by: F = G * (m * m2) / d^2

where

Equating the two forces, we get:

m * v^2 / r = G * (m1 * m2) / d^2

Solving for the orbital velocity, we get: v = (G * (m1 + m2) / d)^1/2

Using the period-velocity relationship, T = 2 * pi * r / v, we can find the period of the orbit.

Substituting for v, we get:

T = 2 * pi * r * (d / (G * (m1 + m2)))^1/2

Squaring both sides and solving for r, we get: T^2 = 4 * pi^2 * r^3 / (G * (m1 + m2))

r = (G * (m1 + m2) * T^2) / (4 * pi^2)

so T^2 = 4 * pi^2 * (G * (m1 + m2) * T^2) / (4 * pi^2) * d^3

T^2 = 4 * d^3 * (m1 + m2)^2 / G

which is the general form of Kepler's third law.

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The correct product of the above nuclear reaction is 221/87 Fr (option C).

A nuclear reaction is the process such as the fission of an atomic nucleus, or the fusion of one or more atomic nuclei and/or subatomic particles in which the number of protons and/or neutrons in a nucleus changes.

In a nuclear reaction, the reaction products may contain a different element or a different isotope of the same element.

Alpha decay is a specific type of nuclear reaction in which an alpha particle made up of helium-4 atom (consisting of two protons and two neutrons), is emitted.

According to this question, the nuclear reaction (alpha decay) of an atom with mass number 225 and atomic number 89 is given. To find the mass number and atomic number of the product, we subtract 4 and 2 respectively.

Therefore, option C is correct.

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The changes that occur in old age include decrease in bone density that can affect the normal physiological functioning of her aging mother.

Aging process is the changes and stages of life that an individual naturally undergoes as they advance in age and these experiences are individualized according to lifestyle.

The various changes that occur include but not the least the following:

The onset of these changes depends on the mother's lifestyle, that is, intake of adequate nutrition, exercise and proper hydration.

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A pilot light is typically wired in series with a thermostat to indicate whether the fan is moving air

We know that the pilot is such a person that have been trained so as to be able to fly the air plane. This is the individual that can be able to control a plane and there are tools that the pilot would have to use to do his job.

Now we know that the pilot light is one of the tools that the pilot can use to be able to use in the discharge of his job when he is flying the air craft that is moving and it has to be in series with the thermostat.

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Explanation:

Electrical energy is caused by moving electric charges called electrons. Electricity is a type of energy that comes from electrical energy.

A. The period of the motion is 4.18 s

B. The frequency of the oscillations

Hz is 0.2393 Hz

C. The first time the mass is at the position

x = 0 is 2.09 s

D. The first time the mass is at the site of maximum compression of the spring is 6.27s

a) The period of motion is given by the time it takes for the mass to complete one full oscillation. From the equation given, x = (8.8 cm)cos[2t/(4.18 s)], we can see that the function is in the form x = A cos(ωt + φ). The period of the motion T is given by the reciprocal of the angular frequency ω, which is T = 2π/ω.

In this case, the angular frequency is given by the coefficient of t in the argument of the cosine function, 2t/(4.18 s). So,

T = 2π/(2/(4.18 s)) = 4.18 s

b) The frequency of oscillations, f, is given by the reciprocal of the period, so

f = 1/T = 1/4.18 s^-1 = 0.2393 Hz

c) To find the first time the mass is at the position x = 0, we need to find the value of t when the cosine function is equal to 1.

x = (8.8 cm)cos[2t/(4.18 s)] = 8.8cm * 1 = 8.8cm

so,

cos[2t/(4.18 s)] = 1

t = (4.18 s)/2 = 2.09 s

d) To find the first time the mass is at the site of maximum compression of the spring, we need to find the value of t when the cosine function is equal to -1.

x = (8.8 cm)cos[2t/(4.18 s)] = 8.8cm * (-1) = -8.8cm

so,

cos[2t/(4.18 s)] = -1

t = (4.18 s) + (2.09 s) = 6.27s

It should be noted that the mass will be at the site of maximum compression at t = 6.27s and t = 2.09s + 4.18s = 6.27s + 4.18s = 10.45s and so on.

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The distance (in Km) between the moonlet and the alien planet, given that the force of gravity acting on the moonlet due to the planet is 5.2×10¹⁶ N, is 9167.4 Km

We can obtain the distance between the moonlet and the alien planet by using the following formula:

F = GM₁M₂ / r²

Where

The following data were obtained from the question:

F = GM₁M₂ / r²

5.2×10¹⁶ = (6.67×10¯¹¹ × 6.3×10¹⁴ × 1.04×10²⁶) / r²

Cross multiply

5.2×10¹⁶ × r² = 6.67×10¯¹¹ × 6.3×10¹⁴ × 1.04×10²⁶

Divide both sides by 5.2×10¹⁶

r² = (6.67×10¯¹¹ × 6.3×10¹⁴ × 1.04×10²⁶) / 5.2×10¹⁶

Take the square root of both sides

r = √[(6.67×10¯¹¹ × 6.3×10¹⁴ × 1.04×10²⁶) / 5.2×10¹⁶]

r = 9167442.4 m

Divide by 1000 to express in Km

r = 9167442.4 / 1000

r = 9167.4 Km

Thus, we can conclude that the distance between them is 9167.4 Km

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Answer:

The unconditioned stimulus (UCS) in this illustration of classical conditioning is a bee sting. The child's discomfort and startle response are examples of the unconditioned response (UCR).

The Sprite drink is the conditioned stimulus (CS). The Sprite soda did not initially elicit any specific reactions (it was neutral). However, since the child had a bee sting while drinking soda, the discomfort and bee sting are now connected to the beverage, specifically Sprite.

The child's fear of the Sprite soda is the conditioned reaction (CR). The child now has anxiety whenever he sees or consumes sprite soda as a result of the link between the bee sting and the soda.

Explanation:

see above

Answer:

Below

Explanation:

EPE = 1/2 k x^2

       = 1/2 * 500 N/m * (.3)^2 = 22.5 J

No, his explanation is not valid. The data from the experiment shows that both temperature and moisture do have an effect on plant growth.

What is the temperature?

An object's temperature serves as a gauge for its heat or coldness. Temperature is usually measured in degrees on the Celsius or Fahrenheit scales. At a temperature of 0 degrees Celsius (or 32 degrees Fahrenheit), water freezes. At 100 degrees Celsius (or 212 degrees Fahrenheit), water boils. Temperature can affect how quickly things happen, such as the speed at which a chemical reaction takes place. Temperature also affects how people and other living things feel and behave.

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The Kinetic energy of the hot air balloon is 4500 Joules, the potential energy is 4.9 × 10⁵ Joules, and the total mechanical energy is 4.95 × 10⁵ Joules.

The Kinetic energy is the amount of energy which is present in the body of an object which is under motion. The kinetic energy is a vector quantity because it has both the magnitude and direction. The SI unit of KE is Joule. The KE of an object can be calculated by the formula:

KE = 1/2 mv²

KE = 1/2 × 1000 × (3)²

KE = 500 × 9

KE = 4500 Joules

PE = m × g × h

PE = 1000kg × 9.8 × 50

PE = 490,000 Joules

Total Mechanical energy = PE + KE

Total Mechanical energy = 4500 + 490000

Total Mechanical energy = 494500 Joules

Total Mechanical energy = 4.95 × 10⁵ Joules

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The energy of the photon is obtained as 5.8 x 10 -26 J/photon. Option C

We have to know that the energy of the photon can be obtained from the frequency. We can define the frequency as the number of cycles that is completed per second so the time that is taken is 1 s.

Energy = hf

h = Plank's constant

f = frequency

Then;

E = 6.6 * 10^-34 * 88 * 10^6

E = 5.8 x 10 -26 J/photon

The photon that we can see is going to have a total energy of 5.8 x 10 -26 J/photon.

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Answer:

Explanation:To determine the speed of the first car when it hit the second car, we can use the conservation of momentum. The momentum of the first car before the collision is equal to its mass multiplied by its velocity, and the momentum of the two cars after the collision is also equal to their combined mass multiplied by their combined velocity.

The momentum of the first car before the collision is 3.00kg * v1 = m1 * v1

The momentum of the two cars after the collision is (3.00kg + 2.00kg) * v2 = (m1 + m2) * v2

From the conservation of momentum, we can set these two equations equal to each other and solve for v1:

m1 * v1 = (m1 + m2) * v2

v1 = (m1 + m2) * v2 / m1

v1 = (3.00kg + 2.00kg) * v2 / 3.00kg

v1 = 5.00kg * v2 / 3.00kg

v1 = (5/3) * v2

The combined velocity of the two cars after collision is v2 = 2.0m / (2.0s) = 1.0m/s

Therefore, the first car was going at (5/3) * 1.0m/s = 1.67m/s.

To determine if this collision is elastic or inelastic, we need to calculate the coefficient of restitution (e).

e = (initial velocity of first car - final velocity of first car) / (initial velocity of first car)

The initial velocity of the first car was 1.67m/s and final velocity of the first car is 0 m/s (since it stops after the collision).

e = (1.67m/s - 0m/s ) / (1.67m/s)

e = 1.0

The coefficient of restitution is 1.0, which means the collision is perfectly elastic. This means that the kinetic energy is conserved in the collision.

The component of vector A in the x direction will be -11.01 meters. and in the y direction will be 9.18 meters.

A quantity or phenomenon with independent qualities for both magnitude and direction is called a vector. The term can also refer to a quantity's mathematical or geometrical representation. Velocity, momentum, force, electromagnetic fields, and weight are examples of vectors in nature.

Vector quantities can also include things like movement, acceleration, force, momentum, weight, the speed of light, a gravitational field, current, and more.

component of vector A in x direction = A cos theta

                                                             = 12 cos(53)

                                                             = -11.01 meters

component of vector A in y direction = A sin theta

                                                            = 12 sin (53)

                                                           = 9.18 meters

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Answer:

To calculate the height of the water in the capillary tube, we can use the equation h = 2πσcosθ/ρg, where h is the height of the water in the tube, σ is the surface tension of the water, θ is the contact angle between the glass and the water, ρ is the density of the water, and g is the acceleration due to gravity. Plugging in the given values, we get h = 2π(0.073)cos(45°)/(1000)(9.8), which is equal to 0.0092 meters.

The statement that is true about the theory of plate tectonics and the theory of continental drift C. The theory of plate tectonics gives the method by which continents can move as part of plates .

According to the scientific hypothesis of plate tectonics, the underground movements of the Earth create the primary landforms. By explaining a wide range of phenomena, including as mountain-building events, volcanoes, and earthquakes, the theory, which became firmly established in the 1960s, revolutionized the earth sciences.

The scientist Alfred Wegener is most closely connected with the concept of continental drift. Wegener wrote a paper outlining his notion that the continents were "drifting" across the Earth, occasionally crashing through oceans and into one another, in the early 20th century.

According to tectonic theory, the Earth's surface is dynamic and can move up to 1-2 inches every year. The numerous tectonic plates constantly move and interact. The outer layer of the Earth is altered by this motion. The result is earthquakes, volcanoes, and mountains.

Therefore, option C is correct.

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Explanation:

In differential form, this is Newton's second law; the rate of change of the momentum of a particle is equal to the instantaneous force F acting on it, hence the net force is equal to the mass of the particle times its acceleration.