Which of the following is not one of the observed characteristics of our solar system?all planets go in the same circular direction
all planets look as though they lie along a flattened circular plane or disk
the Sun and planets rotate in the same direction
all moons orbit planets in a counterclockwise direction

Answers

Answer 1

Answer:

Our solar system is made up of an ordinary star known as the Sun. All moons orbit planets in a counterclockwise direction are not one of the observed characteristics of our solarsystem.

What is the solar system?

Our solar system is made up of an ordinary star known as the sun, as well as the planets Mercury, Venus, Earth, Mars, Jupiter, Saturn, Uranus, and Neptune.

It contains the planets' satellites, as well as countless comets, asteroids, and meteoroids, as well as the interplanetarymedium.

When viewed from the Northpole or the North star Polaris, the Moon and all other typical non-asteroid size moons in our solar system orbit their host planet in a counter-clockwise manner.

To learn more about the solar system refer to the link;

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Answer 2

Answer:

The answer is: all moons orbit planets in a counterclockwise direction

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How far is it to the stars

Answers

The closest is the sun. The next star is 4.3 light years away

The distance to every star is different. The nearest star is the sun. That's 93 million miles away. The next nearest star is a little over four light-years away. From there they range out to 13 billion light-years. There are more past that but we can't see any farther.

Oil flows upward in the wick of a lantern because of liquid property called

Answers

Capillarity "Capillarity causes the part of the surface of a liquid in contact with a solid, to be either elevated above (e.g. water), or depressed below (e.g. mercury), the rest of the surface. This trait is named for the behaviour of liquids in capillary tubes placed perpendicular to the surface. The forces operating within capillarity are cohesion, adhesion, and surface tension."

Objects with masses of 160 kg and a 460 kg are separated by 0.440 m. (a) Find the net gravitational force exerted by these objects on a 51.0 kg object placed midway between them. magnitude N direction -Select- B (b) At what position (other than infinitely remote ones) can the Sko kg object be placed so as to experience a net force of zero? m from the 460 kg mass

Answers

(a) The net gravitational force (\(F_{\text{net}}\)) exerted by two objects on a third object can be calculated using the formula for universal gravitation:

\[ F_{\text{net}} = \frac{G \cdot m_1 \cdot m_2}{r^2} \]

Where:
- \(G\) is the gravitational constant (\(6.67 \times 10^{-11} \, \text{N} \cdot \text{m}^2/\text{kg}^2\))
- \(m_1\) and \(m_2\) are the masses of the two objects (160 kg and 460 kg)
- \(r\) is the separation between the objects (0.440 m)

Plugging in the values:

\[ F_{\text{net}} = \frac{(6.67 \times 10^{-11} \, \text{N} \cdot \text{m}^2/\text{kg}^2) \cdot (160 \, \text{kg}) \cdot (460 \, \text{kg})}{(0.440 \, \text{m})^2} \]

\[ F_{\text{net}} \approx 5.1 \, \text{N} \]

The direction of the net force is along the line connecting the two masses.

(b) To find the position where a 51.0 kg object can be placed so as to experience a net force of zero, we can set up an equation using the gravitational forces from each mass. Let's assume the 51.0 kg object is placed at a distance \(x\) from the 460 kg mass. The net force can be zero if the gravitational force from the 160 kg mass is equal and opposite to the gravitational force from the 460 kg mass:

\[ \frac{G \cdot m_{\text{obj}} \cdot m_{160}}{x^2} = \frac{G \cdot m_{\text{obj}} \cdot m_{460}}{(0.440 - x)^2} \]

Where:
- \(m_{\text{obj}}\) is the mass of the object (51.0 kg)
- \(m_{160}\) is the mass of the 160 kg object
- \(m_{460}\) is the mass of the 460 kg object
- \(x\) is the distance from the 460 kg mass

Solving for \(x\):

\[ \frac{m_{160}}{x^2} = \frac{m_{460}}{(0.440 - x)^2} \]

\[ m_{160} \cdot (0.440 - x)^2 = m_{460} \cdot x^2 \]

Solving this quadratic equation will give you the position \(x\) where the net force on the 51.0 kg object is zero.

An umbrella policy is designed to cover:A. expensive personal property.
B. additional buildings on your property.
C. property when traveling away from home.
D. major personal liability suits.

Answers

An umbrella policy is designed to cover D. MAJOR PERSONAL LIABILITY SUITS.

An umbrella insurance policy is extra liability insurance. It is designed to help protect you from major claims and lawsuits resulting to protecting your assets and future assets.

Umbrella policy provides additional liability coverage above the limits of your homeowners, auto, and boat insurance policies. When the liability of all this policies have been exhausted, the umbrella policy protection kicks in.

It also provides coverage on claims that are excluded by other policies.

An umbrella policy primarily provides higher liability coverage that kicks in when the liability on primary insurance policies (like auto, home) are exhausted. It is mainly designed for major personal liability suits rather than covering properties and their components.

The correct option is D.

An umbrella policy is a type of insurance policy, primarily designed to provide extra liability coverage above the limits of homeowners', auto, and boat insurance policies. It kicks in when the liability on these other policies has been exhausted. So, it refers to option D: major personal liability suits.

For example, if you have a car accident and the damages exceed the limit on your car insurance policy, an umbrella policy would help cover the additional costs.

It's not primarily about covering expensive personal property, additional buildings, or properties while traveling. However, remember it is a supplemental form of insurance; therefore, it spans a variety of situations, which may potentially include some cases of property damage or bodily injury claims.

Hence The correct option is D.

Learn more about umbrella policy here:

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A student wants to build a circuit with four light bulbs and one bell. A student wants to place a switch in the circuit so that only one light will still be on and the bell will still ring when the switch is opened

Answers

Answer:

we have an circuit with two branches in parallel,

* One formed by the switch and three light bulbs

* Another branch formed by a light bulb and the bell

Explanation:

For the construction of the circuit, let us analyze the conditions given, of the 4 light bulbs, only one should remain lit when the dapple is opened, so we must place three light bulbs and the switch in one branch and the other light bulb in the other branch.

For the bell to sound with the abort circuit it must be on the branch where the single bulb is.

Therefore we have an circuit with two branches in parallel,

* One formed by the switch and three light bulbs

* Another branch formed by a light bulb and the bell

What determines the composition of a rock

Answers

Is determined by the percent of constituent of minerals and elements contained within it.

Composition of a rock is determined by the percent of constituent of minerals and elements contained within it.

Explanation:

The composition of a rock is decided by the % of the constituent minerals and components contained inside it.

The minerals that form up rocks have outlined chemical compositions and rigid atomic structures. once daylight strikes the rock's surface, the composition and atomic structure of the various minerals management the wavelengths they absorb or replicate.

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