PHYSICS HIGH SCHOOL

If Mr. Kirwan’s pet Fluffy the Wonder Hamster rides his unicycle at a rate of 5m/s to thenorth on a flatbed train car. Under what conditions do you see him moving at 5 m/s?

Answers

Answer 1
Answer: The condition that would induced the seer or observer to see that the pet hamster is moving at 5 m/s is when the train is also moving at that speed. This is because the unicycle will only allow limited vision to the seer thinking that the pet hamster is not moving at that speed. 

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Light enters water from air at an angle of 25° with the normal, Θ1. If water has an index of refraction of 1.33, determine Θ2.A) 18.5°
B) 34.2°
C) 31.8°
D) 71.5°

Answers

By Snell's law:

η = sini / sinr.        i = 25,  η = 1.33

1.33 = sin25° / sinr

sinr = sin25° / 1.33 = 0.4226/1.33 = 0.3177    Use a calculator.

r = sin⁻¹(0.3177)

r ≈ 18.52°

Option A.

God's grace.

I have been stuck on this for a while. I know you work it out through Hess's law, but I can't seem to have the equations balanced to cancel out. What is the specific problem you're facing? a) Balancing chemical equations b) Understanding Hess's law c) Canceling out equations d) Troubleshooting chemical reactions

Answers

Answer: a) Balancing chemical equations

Explanation:

     We are given that this student is struggling to have the "equations balanced to cancel out." This means that answer option A gives the specific problem they are facing, a) Balancing chemical equations. While they may be struggling to cancel things out, they say "I can't seem to have the equations balanced." This leads us to the specific answer.

Final answer:

The application of Hess's law involves balancing reactions and using stoichiometry to add or subtract equations, thus obtaining a desired reaction. The law states that the enthalpy change for a total process is the sum of enthalpy changes for individual steps. One can think of complex reactions as occurring in individual steps, helping to balance or cancel out equations.

Explanation:

In your question, you're grappling with the utilization of Hess's law and balancing or canceling out equations. To solve such problems with Hess's law, it's crucial first to understand what this law implies. Hess's law states that if a chemical process can be written as the sum of multiple steps, the enthalpy change of the total process equals the sum of the enthalpy changes for individual steps. This law works because enthalpy is a state function, which means that enthalpy changes depend mainly on the initial and final state, not the path through which the process passed.

For example, take the reaction of carbon with oxygen to form carbon dioxide. You can write this reaction as a direct process: C(s) + O₂(g) = CO₂(g). But you can also divide it into two steps: 1. Carbon and oxygen form carbon monoxide (C(s) + 02 (8) -> CO(g)), and 2. Carbon monoxide reacts with oxygen to form carbon dioxide (CO(g) + 1-0₂ (8) -> CO₂(g)). The reaction, when written as a sum of these steps, will give you the overall reaction, helping to balance or cancel out the equations.

The challenging aspect of Hess's law is the manipulation of equations to achieve cancellation and balance. Remember, stoichiometry rules allow us to change the quantities of reactants and products (but not their identity) when we have balanced equations. It's akin to mathematical equations, where one can multiply an entire equation by a constant to obtain an equivalent equation.

Learn more about Hess's Law here:

brainly.com/question/14561923

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Which statements describe characteristics of all liquids? Check all that apply. Liquids have the ability to change shape. Liquids flow, even with some resistance. Liquids have definite volume. Liquids expand to fill containers. Liquids have molecules that slip past each other.

Answers

Answer;

  • Liquids have the ability to change shape.
  • Liquids flow, even with some resistance.
  • Liquids have definite volume
  • Liquids have molecules that slip past each other.

Explanation;

  • Liquids are one of the three states of matter, others being solids and gases.
  • Liquids are characterized by particles that are apart as compared to solid particles which are very closely packed, however they are still in contact unlike the case of gaseous particles.
  • Liquids have a definite volume but an indefinite shape, thus they occupy the volume of the container they are put.
  • Additionally, they are capable of flowing and take any shape. This is due to the presence of inter-molecular forces which allow the molecules to slide past each other freely.

answer:

liquids have he ability to change shape

liquids flow even with some resistance

liquids have a definite volume

liquids have molecules that slip past each other


What is the resistance of an object to moving or to stoppingA. Gravity

B. Inertia

C. Gravitational Force

Answers

Inertia is the resistance of an object to moving or stopping
i believe the answer is C

Coach wants her team to have fun, win some games, and be a productive unit. What is the most important personality trait the coach should demonstrate to achieve her goals?

Answers

remind them that there going out to have fun that it doesn't matter if they win or lose
that the best way to play is to have fun

A 70 kilogram mountaineer is standing on the summit of Mt. Everest. The distance between the mountaineer and the center of Earth is 6.39 × 106 meters. What is the magnitude of the force of gravity acting on the mountaineer? (The value of G is 6.673 × 10-11 newton meter2/kilogram2. The mass of Earth is 5.98 × 1024 kilograms.)90.50 newtons



111.5 newtons



684.1 newtons



4041.7 newtons

Answers

The force due to gravity between two point masses is given by:
F = GMm/r²; where G is the gravitational constant, M is the larger mass, m is the smaller mass, and r is the distance between the two.
F =  (6.673 × 10⁻¹¹ × 5.98 × 10²⁴ × 70) / (6.39 × 10⁶)²
F = 684.1 N
 F = GMm/r² 

F = (6.673*10^-11)(5.98*10^24)(70)/(6.39*10^... 

F = 684 N (3sf)
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