the inner planets of the solar system are rocky whereas the outer planets contain a higher proportion of ice and gas. this differentiation occurred in the early solar system because:

Answer:

27,500 N

Explanation:

W = Fd

F = W/d = (2.2x10⁵J)/(8 m ) = 27,500 N

A thermometer which always reads three degrees lower than the actual temperature is reliable but it is not valid. Thus, the correct option is E.

A thermometer is generally made up of a small, hollow glass tube. At the bottom of this tube is present a bulb, which holds a liquid such as the alcohol or mercury element. When there is an increase in the heat, the liquid present inside the bulb expands, pushing up into the tube of the thermometer. On the other hand, a decrease in heat lets the liquid contract, moving down the tube of the thermometer.

A thermometer works on the principle which states that solids and liquids tend to expand with temperature. This changes in mercury is studied on a temperature scale.

A thermometer which always reads three degrees lower than the actual temperature can be reliable but it is not valid at all.

Therefore, the correct option is E.

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Your question is incomplete, most probably the complete question is:

What would be true of a thermometer that always reads three degrees lower than the actual temperature?

a. It is valid but not reliable

b. It is both reliable and valid

c. It is neither reliable nor valid

d. It is not valid, but you cannot determine if it is reliable from the information given

e. It is reliable but not valid

The highest energy of a 600 k absorption coefficient would be radiated at 5 micrometer wavelength.

A theoretical concept known as a black body, also spelled as blackbody, describes an item that completely absorbs all electromagnetic waves that strikes it, along with all light wavelengths. No light is returned in return.

We will treat the planets and stars, including the sun and the earth, as blackbodies even if they don't actually exist. Although they are not by definition ideal blackbodies, we can nonetheless refer to them as blackbodies for the purposes of comprehension and simplicity.

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The term "musical notation" refers to the widespread symbology used to indicate how far apart long and short sounds should be from one another.

a collection of visual instructions for performing music, a visual representation of a heard or imagined musical sound, or musical notation. It usually takes the form of writing or printing and is a deliberate, comparatively time-consuming activity. One of two purposes—as a memory aid or for communication—causes its use.

Typically, Western music employs 12 notes: C, D, E, F, G, A, B, plus five flats and comparable sharps in between: C sharp/D flat (they are the same note, simply referred to differently depending on the context).

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The wave fronts seen above are the result of a small vibrating moving object across a ripple tank's surface. The surface waves move quickly in contrast to the Doppler effect. The item is travelling right, which has compressed the waves at the right.

Doppler Effect is the term used to describe the shift in wave frequency caused by the relative motion of an incident wave and its observer.

One of the most typical examples is the sound of an ambulance or fire engine's siren. You may have observed that the pitch of a siren decreases sharply as it passes you at a high rate of speed. The siren initially approaches you while the pitch is louder.

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Part A

The momentum of the ball right before the collision is given by the equation

$p_{before,y} = mv_{before,y}$

But we know the initial velocity of the ball before the collision is just the velocity due to gravity, which is given by

$v_{before,y} = gt_0$

where $t_0$ is the time taken for the ball to fall from the initial height to the table.

This is given by

$t_0 = \sqrt{\frac{2h_i}{g}}$

Substituting this into the equation for the momentum gives

$p_{before,y} = mg\sqrt{\frac{2h_i}{g}}$

The final answer is

$p_{before,y} = m\sqrt{2gh_i} \approx 88.5 \,\text{kg m/s}$

Part B

The momentum of the ball right after the collision is given by the equation

$p_{after,y} = mv_{after,y}$

But we know the final velocity of the ball after the collision is just the velocity due to gravity, which is given by

$v_{after,y} = gt_f$

where $t_f$ is the time taken for the ball to fall from the final height to the table.

This is given by

$t_f = \sqrt{\frac{2h_f}{g}}$

Substituting this into the equation for the momentum gives

$p_{after,y} = mg\sqrt{\frac{2h_f}{g}}$

The final answer is

$p_{after,y} = m\sqrt{2gh_f} \approx 73.6 \,\text{kg m/s}$

Part C

The impulse imparted to the ball during the collision is given by

$J_y = p_{after,y} - p_{before,y}$

Substituting the values from Parts A and B gives

$J_y = 73.6 \,\text{kg m/s} - 88.5 \,\text{kg m/s} \approx -14.9 \,\text{kg m/s}$

Part D

The average force exerted on the ball during the collision is given by

$F_{avg,y} = \frac{J_y}{t_c}$

Substituting the value from Part C gives

$F_{avg,y} = \frac{-14.9 \,\text{kg m/s}}{15 \,\text{ms}} \approx -0.99 \,\text{N}$

Part E

The change in kinetic energy of the ball during the collision is given by

$K_{after} - K_{before} = \frac{p_{after,y}^2 - p_{before,y}^2}{2m}$

Substituting the values from Parts A and B gives

$K_{after} - K_{before} = \frac{73.6^2 - 88.5^2}{2 \cdot 50} \approx -3.3 \,\text{J}$

What is kinetic energy?

Kinetic energy is the energy of a moving object, equal to the work done to accelerate the object from rest to its current velocity. It is dependent on the object's mass and velocity.

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100.00 °F to Celsius would be 37.78 °C

If a person whirls an object horizontally in a counter-clockwise direction and the string breaks at point P, the rock will follow a path that is determined by the combination of its initial horizontal velocity and its vertical velocity due to gravity.

Without additional information about the object's initial velocity and the distance from the point of release to the ground, it is difficult to determine the exact path that the rock will follow. However, it is likely that the rock will follow a curved path, where gravity causes the rock to fall vertically downward while the horizontal velocity causes it to continue moving horizontally. This path is known as a parabolic path or a projectile motion.

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Sam tried tying toys to his toy parachute. He discovered that differences in size, shape, and material affected Drag , option D.

Changes in acceleration are caused by resistance and friction. The heavier piece was slowed down by air resistance also known as drag. Drag is the force that opposes the motion of an object through a fluid.

The parachute works by creating drag, slowing the descent of the objects attached to it. The size, shape, and material of the toys that Sam tied to the parachute would affect the amount of drag created, which in turn would affect the motion of the toys as they descended.

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This strategy is preferable since you need to apply force because of water balloon does indeed have a lot of motion. To bring its balloon to rest, you must apply a force over a period of time.

The physics term for a body's position nor orientation changing over time. Translation is defined as movement along this line or a curve. Rotation is a motion that modifies a body's orientation.

To let the balloon to settle after some time, according to Δp = fΔtΔp→F→Δt

In contrast to if the balloon just smacked against a hand that was immobile, you may bring the inflatable to rest by moving your hand as the balloon does. You may place the balloon on top of something bigger. The force could be less. The effort can be reduced while still causing its same acceleration change and preventing the balloon from breaking.

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An object is 1.0 cm tall and its erect image is 3.0 cm tall, the exact magnification is 3.

Magnification measures how much the image is enlarged compared to the actual object. Magnification measures how many distinct structures can be seen in an image. Calculating magnification is as simple as dividing the eyepiece's magnification by the objective lens's.

By dividing the image height, it is possible to calculate the precise magnification of the objects. We determine it by dividing the size of the erect image by the size of the object. By dividing 3.0 cm by 1.0 cm from the above information, we can determine the precise magnification. So, the response would be 3.

exact magnification =  image height/object's height

exact magnification = 3/1

exact magnification = 3.

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The average force exerted by the person is 4.8 N (23 N / 4.8 s).

Force is an interaction between two or more objects that can cause a change in the motion, shape, or energy of one or both of the objects. Force can be classified into two categories: contact forces and non-contact forces. Examples of contact forces include friction, tension, and normal force. Examples of non-contact forces include gravity, magnetism, and electrostatic forces. Force is measured using the SI unit called the newton (N).

The force exerted by the person is equal to the mass of the box multiplied by the acceleration. Since the mass of the box is 10 kg and the acceleration is 2.3 m/s, the force exerted by the person is 23 N (10 kg × 2.3 m/s). This force was applied over a time of 4.8 s, so the average force exerted by the person is 4.8 N (23 N / 4.8 s).

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Answer: I think it is (C.

Explanation: (C. is more realistic because that is something i would do.

The pressure when the volume is reduced to 0.42 L is (y - b) ÷ m.

Pressure is the force per unit area applied to a surface or object. In the physical sciences, pressure is a measure of the force exerted on a surface by a fluid, such as a gas or liquid. Pressure is the result of the weight of the fluid pushing down on a surface. In physics, pressure is often expressed as the ratio of force to area. Pressure is typically measured in units of pascals (Pa) or pounds per square inch (psi). Pressure can also be measured in atmospheres (atm), bars, or torr.

The equation for the line representing the relationship between Volume (L) and (1/pressure) is y = mx + b, where m is the slope and b is the y-intercept.
Since we know the Volume (L) is 0.42, we can use this value to solve for the pressure.
Using the equation, we can calculate the pressure by solving for x:
x = (y - b) ÷ m
Therefore, the pressure when the volume is reduced to 0.42 L is (y - b) ÷ m.

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