Problem 1 : When an iron rod is heated to hundreds of degrees Celsius, it begins...

Problem 1 : When an iron rod is heated to hundreds of degrees Celsius, it begins...

Problem 1 : When an iron rod is heated to hundreds of degrees Celsius, it begins to glow red. Why does it do this? (Hint: think about Feynman’s “jiggling” atoms, atomic structure, and the nature of light) (The answer need to be 4-5 sentences, and please write it clearly, thank you~)

1) When an iron rod is heated to hundreds of degrees Celsius, it begins to glow...

1) When an iron rod is heated to hundreds of degrees Celsius, it begins to glow red. Why does it do this? (Hint: think about Feynman’s “jiggling” atoms, atomic structure, and the nature of light) 2) We saw in lecture that light waves can be polarized. Can sound waves be polarized? If so, give an example of polarized sound. If not, explain why not. 3) Helium-neon lasers emit light with a wavelength of 633 nm (6.33×10−7 m). (a) Is this...

1. A hot-air balloon, open at one end, rises when the air inside is heated by...

1. A hot-air balloon, open at one end, rises when the air inside is heated by a flame. How does the temperature, pressure and density of the air inside the balloon compare to the air outside? For each property, state if they are higher, lower or the same inside the balloon versus outside. 2. What is the atomic mass of Aluminum (Al)? Give your answer in both atomic mass units and in kilograms. Mass = _____________ u (atomic mass units)...

1. Why might a stream of red photons not cause an electron to be emitted from...

1. Why might a stream of red photons not cause an electron to be emitted from a gold surface? A. The stream of red photons might not be hitting the surface with enough total energy per second B. An electron absorbs the energy of one photon, and the red photon has too small of a wavelength to deliver enough energy. C. An electron absorbs the energy of one photon, and the red photon has too small of a frequency to...

Experimental data: Length L0 of the cold rod (measured with a meter stick): 600 +/- 1...

Experimental data: Length L0 of the cold rod (measured with a meter stick): 600 +/- 1 mm Cross-sectional diameter d of the rod (measured with a caliper): 6.1 +/- 0.1 mm The change in length ∆L after the rod reached its final temperature: 1.04 +/- 0.01 mm The initial temperature of the rod (the room temperature): 22 +/- 1 ̊C The final temperature of the rod shown by the thermometer: 93 +/- 1 ̊C Linear thermal expansion coefficient calculation: 1)...

Please answer all, Thank you. 1. A firework is designed so that when it is fired...

Please answer all, Thank you. 1. A firework is designed so that when it is fired directly upwards, it explodes and splits into three equal-massed parts at its peak. Someone launches the firework directly upwards and measures the locations of two of the pieces of the firework. They find that one piece landed 2 meters to the left and another piece landed two meters in front of them. Where did the third piece of land? 2. A Newton's cradle is...

Question 1 Science affecting our daily lives is exemplified by: relying on hunches to solve crimes....

Question 1 Science affecting our daily lives is exemplified by: relying on hunches to solve crimes. using DNA evidence in criminal investigations. seeking the help of people with psychic visions in police work. relying entirely on preconceptions to identify people who may have committed crimes. 4 points Question 2 When an object’s velocity changes, which of the following must have occurred? A unbalanced force acted on the object. An balanced force acted on the object. The object started to deviate...

Properties of water to test at home: Experiment 1 Materials needed – one paper clip and...

Properties of water to test at home: Experiment 1 Materials needed – one paper clip and a glass of water Procedure: place a paper clip (laying flat) on the surface of the water and observe. Observations: What happened when you placed the paper clip on the surface of the water? Procedure: Place the paper clip long ways (up and down) onto the surface of the water. Observations: What happened when you placed the paperclip long ways on the surface of...

Procedure Reaction 1: Dissolving the Copper 1. Obtain a clean, dry, glass centrifuge tube. 2. Place...

Procedure Reaction 1: Dissolving the Copper 1. Obtain a clean, dry, glass centrifuge tube. 2. Place a piece of copper wire in a weighing paper, determine the mass of the wire and place it in the centrifuge tube. The copper wire should weigh less than 0.0200 grams. 3. In a fume hood, add seven drops of concentrated nitric acid to the reaction tube so that the copper metal dissolves completely. Describe your observations in the lab report. (Caution, Concentrated nitric...

Activity 1: Scientific Reports You may have heard the question “If a tree falls in a...

Activity 1: Scientific Reports You may have heard the question “If a tree falls in a forest and no one is around to hear it, does it make a sound?” A similar question can be asked about experiments. “If a researcher performs an experiment and never publishes the result has science been performed?” Many people would say no because science is the accumulation of knowledge. If the results of an experiment are not published, knowledge is not gained. The final...