Find a numerical value for ρ_earth, the average density of the earth in kilograms per cubic meter. Use 6378km for the radius of the earth, G=6.67×10−11m3/(kg⋅s2), and a value of g at the surface of 9.80m/s2.
Find a numerical value for ρ_earth, the average density of the earth in kilograms per cubic...
13) For some pressure calculations density needs to be given in kilograms per cubic meter. Convert all the densities in #6 to kilograms per cubic meter. fare that is 1.75 cm X g a. Pine: 0.77 cm3 g b. Oak: 0.85 cm3 g C. Styrofoam: 0.050 cm3 a. g Pine: 0.77 cm3 b. Oak: 0.85 g cm3 C. Styrofoam: 0.050 g cm3
remember significant figures Another Version SerPSE9 1.PO52 kilograms per cubic meter and thluncertainty in the density, (Use The radius of a solid sphere is measured to be (6.35 ± 0.29) cm, and its mass is measured to be (1.76 t O.09) kg. Determine the density of the sphere nk the correct number of significant figures. use the following formula to calculate the uncertainty in the density: - Am 34-) ( の! .2x 103 kg/m [Grad° This] [Show Answer] maaan Click...
4. Using the Newton's law of gravitation and weight information, Compute the mass of the Earth in Kilograms. Radius of the earth is 6370 km, Gravitational constant G = 6.67 x 10-11 m/kg s2
Assuming that water has a density of exactly 1.00 g/cm3, find the mass of one cubic meter of water in kilograms. Suppose that it takes takes 8.0 h to drain a container of 7430 m3 of water. What is the "mass flow rate", in kilograms per second, of water from the container?
Find the height H of a geosynchronous satellite above the surface of the earth. You may well want to find the radius of the orbit R first. You may use the following constants: The universal gravitational constant G is 6.67×10−11Nm2/kg2. The mass of the earth is 5.98×1024kg. The mass of the satellite is 2.10×102kg. The radius of the earth is 6.38×106m. Give the height of the orbit above the surface in km to three significant digits.
If the average density of the universe is at least 6.0 x 10"27 kg/m3, then the universe will eventually stop expanding and begin contracting (a) How many electrons are needed in each cubic meter to produce the critical density? (me 9.11 x 10-31 kg) electrons/m (b) How many protons per cubic meter would produce the critical density? (mp 1.67 x1027 kg) protons/m3 eBook -10.62 points Tipler6 1.P075. My Notes Ask Your Teac The table below gives the periods T and...
SAE 10W30 motor oil has a dynamic viscosity of 0.24 kilograms per meter second and a specific gravity of 0.727. E 3 Click the icon to view the typical units of viscosity. Click the icon to view density of water. Click the icon to view the conversion table. (a) What is the density of the motor oil in units of kilograms per cubic meter? The density of the motor oil is 727 kg/m (Round your answer to the nearest whole...
Find kinetic energy per cubic meter of flowing blood ( m3) in aorta for individual at rest. Suppose flow rate is about 15 liter/min, radius of aorta cm. The density of blood is 1.05∙103kg/m3
15, O -1 points Tiplere 1. F.070. If the average density of the universe is at least 6.0 x 10 27 kg/m3, then the universe will eventually stop expanding and begin contracting. (a) How many electrons are needed in each cubic meter to produce the critical density? (me 9.11 x 10 31 kg) electrons/m (b) How many protons per cubic meter would produce the critical density? (mp 1.67 x 10 27 kg) protons/m a Show My Work ptional) Submit Answer...
Q12-2 Gravitation 1. Find the speed of a satellite in a circular orbit around the Earth with a radius 2.71 times the mean radius of the Earth. (Radius of Earth = 6.37 x 10 km, mass of Earth = 5.98 x 1024 kg, -6.67 x 10" Nm /kg.) (in m/s) 2 V- 5.67 XII VA