solve please thanks thanks ATTACHMENT PREVIEW Download attachment intru.jpg The
Question solve please thanks thanks ATTACHMENT PREVIEW Download attachment intru.jpg The closed loop shown in the figure below carries a current of 12.2 A in the counterclockwise direction. The radius of the outer arc is 62 cm, that of the inner arc is 23 cm. Find the magnitude of the magnetic field at point P. 60 T Enter attempt(s) made (maximum allowed for credit = 5) P
Imagine a spring, one end held in a fixed position,
Question Imagine a spring, one end held in a fixed position, being rotated in a horizontal circle. For this problem, we will ignore any effects due to gravity, air resistance, and friction.As the spring’s rotational speed increases, it will get longer. Derive an expression for the length of the spring as a function of its angular velocity, mass, spring constant, and equilibrium length.Also, please note that this problem is incredibly difficultPlease show your work and explain each step. Thank you in advance
What is the period of a pendulum with a length
Question What is the period of a pendulum with a length of 75 cm on the moon, where gravity is equal to 1.62 m/s2?
What is the speed of a wave with a wavelength
Question What is the speed of a wave with a wavelength of 3 meters and a period of 12 seconds?
What is the angular frequency of a wave with a
Question What is the angular frequency of a wave with a wave speed of 15 m/s and a wavelength of 7 meters?
What is the speed of sound traveling through water which
Question What is the speed of sound traveling through water which has an acoustic impedance of 1,440,000 kg m-2 /s and density of 1.00 x 103 kg/m3?
What is the bulk modulus of a medium with a
Question What is the bulk modulus of a medium with a density of 1.3 kg/m3 and what sound travels through at a speed of 350 m/s?
You stretch a piece of 20 cm by 20 cm
Question You stretch a piece of 20 cm by 20 cm square of fabric as far as it goes with your hands causing it to stretch from 20 cm long to 30 cm. The total of the forces applied to each end is 25 newtons. What is the Young’s modulus of the fabric?
A rubber cyclinder with a radius of 10 cm is
Question A rubber cyclinder with a radius of 10 cm is compressed from 20 cm in height to 18cm. What is the volume strain of the cylinder?
What is the pressure exerted on the ground from a
Question What is the pressure exerted on the ground from a person with a weight of 50 kg standing on one foot, and their shoe having an area totaling 24 cm2.
Lake Michigan is 275 meters at its deepest point. If
Question Lake Michigan is 275 meters at its deepest point. If the pressure at the surface in 101.325 kPa and the density of water is 1000 kg/m3, what is the pressure at the deepest point?
What is the buoyant force on a 50 kg person
Question What is the buoyant force on a 50 kg person floating 95% submerged in water which has a density of 1000 kg/m3?
What is the volume of an object floating in water
Question What is the volume of an object floating in water that is held up by a buoyant force of 150 N?
Muons, since they are charged, lose energy as they pass
Question Muons, since they are charged, lose energy as they pass through material. Energetic muons are in the so-called “minimum ionizing case” where they lose a constant amount of energy for most of their passage. Just before they stop, they rapidly lose their enery (just like the protons of last week’s proton beam therapy question). If you want to see a plot of energy loss per distance of muons as a function of energy, see figure 30.1 (page 4) here: http://pdg.lbl.gov/2013/reviews/rpp2012-rev-passage-particles-matter.pdfThe actual flux is energy dependent, decreasing with energy as ϕ ∝ E-2.7. For concreteness, the flux is ϕ=m2sGeV100(EGeV)2.7 for E > 1 GeV, where E is the energy measured in GeV. *In order for the muons to reach detectors B and C, they must pass through a certain medium which will cause them to lose energy, the muons will pass through the middle 1 and reach detector B, must have a minimum energy of 30 GeV, and pass through the medium 2 and reach the detector C, must have a minimum energy of 25 GeV. It is known that the minimum energy to reach detector B is 30 GeV, and to reach detector C is 25 GeV, ie muons that leave with initial energy between 1GeV <E <100 GeV, will reach detector B with final energy between 0 GeV ~ 70 and reach detector C with final energy between 0 GeV and 75 GeV.Using the flux equation above, how many muons with initial energies between 1 and 100 GeV reach detectors (B) and (C) after one hour? Give your answer to two significant figures.I can not solve this problem. An image below with more details. I need to understand how to solve problems 4 and 5 above! ATTACHMENT PREVIEW Download attachment 1.jpg Muons, since they are charged, lose energy as they pass through material. Energetic muons (1000 GeV _ E _ 1 GeV) are in the so-called * * minimum ionizing case
A street lamp of mass m hangs in the middle
Question A street lamp of mass m hangs in the middle of a wire rope of length l stretched between two houses. The two equal attachment points of the rope have the distance b <l. What is the force F occurring in the rope? = 8.00 kg = 10.0 m b 10.5 m m
Could you tell me how to convertconvert 1 yard to
Question Could you tell me how to convertconvert 1 yard to millimeterconvert 1.0 m/s to miles/hrconvert 1.0ft/s to miles/hrconvert 325 metric tons to kilograms Convert 6.7km to yards
If the water vapor content is 0.144 g/kg and it
Question If the water vapor content is 0.144 g/kg and it is 710F, how do you figure out how much does the air temperature has to decrease for the air to reach saturation?
Describe two neuroscience methods (EEG, MRI, CT, GSR, ablation, etc.
Question Describe two neuroscience methods (EEG, MRI, CT, GSR, ablation, etc. – choose any two methods we have discussed). Be sure to explain what they measure and how they measure it. Be sure to discuss their pros and cons.
This question was created from Lecture 2.pdf https://www.coursehero.com/file/42161160/Lecture-2pdf/ 1) Two
Question This question was created from Lecture 2.pdf https://www..com/file/42161160/Lecture-2pdf/ 1) Two small spheres are suspended from the same point by strings of 0.20-m length. One sphere has a mass of 0.20 g, the other a mass of 0.40 g. Each sphere carries a charge q. The angle between the two strings is 18 degrees. Angle between of lighter sphere and vertical: 12 degrees. Angle between heavier sphere and vertical: 6 degrees. a) Find the charge on each sphere. ATTACHMENT PREVIEW Download attachment 42161160-325424.jpeg
be an Exam of 40 Questions and a Newtons Law Project
You have to score an A on both assignments. the exam will be on google docx. all intructions and information will be gven, when the tutor is chosen. This will be high school physics questions.
thanks for solving thanks ATTACHMENT PREVIEW Download attachment phys1238.jpg Path
Question thanks for solving thanks ATTACHMENT PREVIEW Download attachment phys1238.jpg Path 1 5.0 30A Path 2 Figure 30-49 Two square conducting loops carry currents of 5.7 A (on the left) and 3.8 A (on the right) as shown in Fig. 30-49. Please use these values of the currents instead of those shown in the figure. What is the value of the integral of B-dl (sign and magnitude) for each of the two closed paths shown? Path 1:
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