Eight droplets of mercury each of radius 1 mm coalesces into a single drop. Find change in the surface energy. Surface tension of mercury is 0.465 J/m².
Q: Particle A with mass m = 1.0 kg travelling at a speed v0 = 10 m/s in the +x direction collides with…
A:
Q: The total power of the radiation emitted by the body is W. b. Suppose thir blaclch
A: Given, Radius, R = 4.5 cm = 0.045 m T = 293 K Now, According to the Steffen Boltzmann law, the…
Q: The core of the Sun has a temperature of 1.5 × 107 K, while the surface of the Sun has a temperature…
A: Part (a): Let Th and Tc denote the temperatures of the hot core and relatively cold surface of the…
Q: Nuclear fusion - the energy source of the Sun, hydrogen bombs, and fusion reactors - occurs much…
A: Given average kinetic energy of the atoms is K.E.= 5.65 × 10-14 J
Q: A boat explodes in two fragments of masses 100 kg and 97 kg after being launched accidentally,…
A: Solution: Given Values, First fragment mass (m1)=100 Kgsecond fragment mass (m2)=97 KgSpeed of…
Q: Suppose your favorite TV scientist has equal masses of frozen water (ice) and liquid water. If she…
A: Latent heat is the heat required to convert one gram of a substance to change its phase. Its SI unit…
Q: Liquid helium is stored at its boiling-point temperature of 4.2 K in a spherical container (r = 0.30…
A:
Q: Lava at Ty= 1050° C emerges from a volcano. A mass m = 65 kg of this lava flows at a constant…
A: Since it contains more than 3 sub parts, solution for the first three is provided here.
Q: If the temperature decreases by a factor of 2, how much will the energy decrease? We have two…
A: Solution:Given:n = by this factor temperature decreases = 2 Told = old termperature = n x Tnew Tnew…
Q: The kinetic energy of a rolling billiard ball is given by KE = 2mv?. Suppose a 0.17-kg billiard ball…
A: mass of the Billiard ball, m=0.17 kg Initial speed of the Billiard ball, u=4.5 m/s Final velocity of…
Q: The amount of radiant energy emitted by a surface is given by q = ɛ0 AT+ where q represents the rate…
A: Dimensional Analysis Dimensional Analysis is a method of studying the dimensions of complex physical…
Q: (a) What is the average kinetic energy in joules of a hydrogen atom on the 5500 °C surface of the…
A:
Q: The surface of the Sun is at a temperature of 6000 K. At what rate is energy radiated from the Sun…
A: Concept: To Determine the Energy radiated by the sun striking the Earth will be determined using…
Q: Suppose you want the nuclei in your fusion experiment to have average kinetic energies of 6.55 ×…
A:
Q: The temperature of a kitchen oven may be 410 °F... Suppose a small circular hole, with diameter 1=1…
A: Temperature of kitchen oven T = 410 FDiameter d=1cm
Q: The intensity of solar radiation reaching the Earth is 1,340 W/m2. If the sun has a radius of 7.000…
A: This question is based on thermal properties of matter topic. We need to know about Stephan…
Q: Suppose an argon atom (atomic mass = 39.95 u) near the surface of the Earth where the temperature is…
A:
Q: A black wood stove has a surface area of 2.00 m2 and a surface temperature of 146°C. What is the net…
A:
Q: An incandescent light bulb has a tungsten filament that is heated to a temperature of 3.00 x103 K…
A: According to Stefan-Boltzman's law, the total power radiated is given by, P = A σ eT4 where, A is…
Q: Suppose you have helium atoms in a sealed container and 20% of the atoms have a speed of 2.1 × 102…
A:
Q: Consider 1 g of sodium chloride that is successively divided into smaller cubes with various varying…
A: Given total mass m of the particle is m= 1 gm If the side of cube is a then its volume is a3. If ρ…
Q: A porcelain frog dropped from rest breaks into three pieces and scatters along the floor.…
A:
Step by step
Solved in 3 steps with 3 images
- Two stars, A and B, have the same emissivity, but the radii and surface temperatures are different with RA = 0.5RB, and TA = 2TB. Assuming the temperature of space to be negligible, which star radiates the most energy per unit time? a. Star Ab. Star Bc. Both radiate the same amount of energy per unit time.d. More information is needed in order to make a determination.The energy reaching Earth from the Sun at the top of the atmosphere is 1.36 x10^3 W/m2, called the solar constant. Assuming that Earth radiates like a blackbody at uniform temperature, what do you conclude is the equilibrium temperature of Earth?A 240 m/s projectile with specific heat c = 0.128 J/gK lodges in a slab of ice at 00C. How much of the ice melts if the projectile is initially at 350C and has a mass of 4.5 g?
- Consider an insulated container containing 2.56-kg ice at -11°c. Inside the container, there is a spherical object with radius 36 cm and at a certain temperature of 14396°C. Calculate the time (in hours) where all the ice has melter. Assume that sphere is a black body. Use the following: pi= 3.14 c_water = 4190 J/kgk, c_ice = 2100 J/kgK, Lf = 334,000 J/kg, o = 5.6704e (-8) W/m²K4. Final answer in TWO decimal places.A student in a lecture hall has 0.320 m2 of skin (arms, hands, and head) exposed. The skin is at 34.0°C and has an emissivity of 0.970. The temperature of the room is 29.5°C (air, walls, ceiling, and floor all at the same temperature). The Stefan–Boltzmann constant is 5.670 × 10−8 W/ (m2. K4 ). A) At what rate does the skin emit thermal radiation? in W B) At what rate does the skin absorb thermal radiation? in W C) At what rate does the skin absorb thermal radiation? in W D) Compare this to the total rate of heat flow from the body, which is about 100 W.______ % of total rate2.a. What is the total Power emitted (in the form of electromagnetic radiation) by a solid hemisphere of emissivity, e = 1, if its radius is 0.70m, and it is maintained at a temperature of 1280 K ? 2.b. What is the total energy emitted by this object in 90 seconds?
- The core of the Sun has a temperature of 1.5 × 107 K, while the surface of the Sun has a temperature of 4460 K (which varies over the surface, with the sunspots being cooler). Treat the core of the Sun and the surface of the Sun as two large reservoirs connected by the solar interior. Nuclear fusion processes in the core produce 3.8 × 1026 J every second. Assume that 100% of this energy is transferred from the core to the surface. Calculate the change in the entropy ΔS, in joules per kelvin, of the Sun every second. Rigel is a blue giant star with a core temperature of 5.0 x 107 K and a surface temperature of 12500 K. If the core of Rigel produces 60,000 times as much energy per second as the core of the Sun does, calculate the change in the entropy ΔSR, in joules per kelvin, of Rigel every second. Barnard’s Star is a red dwarf star with a core temperature of 7.0 x 106 K and a surface temperature of 3270 K. If the core of Barnard’s Star produces 5% as much energy per second as the…The sun has a temperature of 6000 K and a radius of 6.07 x 10^18 m^2. What is the heat current if it has an emissivity of 1. The Stefan-Boltzmann constant is 5.67 x 10^-8 W/m?K4 8.89 x 10^26 W O 2.76 x 10^25 w O 1.98 x 10^7 W O 4.46 x 10^26 wAn electric heater transfers 9.60x10^5 J into a block of ice with a mass of 2.10kg and an initial temperature of 0*c (A) how much of the energy (in J) supplied by the heater goes into melting all the ice into liquid water? (B) how much of the energy ( in J) supplied by the heater goes into raising the temperature of the liquid water? (C) what is the final temperature of the liquid if the water in degree celsius?
- What amount of energy is required to change a spherical drop of water with a diameter of 1.60 mm to five smaller spherical drops of equal size? The surface tension, y, of water at room temperature is 72.0 mJ/m². ΔΕΞ 0.00015 Incorrect mJA 21-kg block of iron drops out of the back of a pickup truck traveling at 55 mi/h. The block slides on the horizontal road for 150 m before coming to rest. Assume the block gets 60% of the thermal energy converted from other forms by the friction interaction between the block and the road, and the process happens so quickly that little of the block’s thermal energy escapes as a heat flow to the block’s surroundings. (a) Use the momentum requirement to determine the friction force on the block. The friction force on the block is ___N (b) By how much does the block’s temperature increase? The temperature increases is ___KSuppose an argon atom (atomic mass = 39.95 u) near the surface of the Earth where the temperature is 295 K is moving straight up with a speed that is equal to the root mean square speed. Assume that the atom does not collide with any other atom or molecules. To what height will the atom go up before it comes to rest? (Assume that the acceleration due to gravity remains constant.) (in m)