6. Robots are pulling on a toy at the same time and the toy is not moving. Robot A is applying 10.235 N to the toy at an angle of 155°. Robot B is applying 24.762N to the toy at an angle of 68°. What is the magnitude and direction Robot C must exert in order for the toy to exist in a state of equilibrium?
Q: The sun is 333000 times as massive as earth, and they are a distance r apart. At what distance x…
A:
Q: Particles q₁ = -20.5 μC, q2 = -9.30 μC, and 93-31.6.0 μC are in a line. Particles q and q₂ are…
A:
Q: A small sphere is suspended from a string in a uniform electric field shown by arrows, making an…
A: Given Mass of sphere m=3×10-3 kg Charge on sphere q=8nC θ=35
Q: 15. A probe is sent to a planet of unknown mass. The probe has several instruments for measuring and…
A: Gravitational force exerted by the Earth is given by F=GMmr2 where G is the gravitational constant,…
Q: 1. The Soyuz are a Russian spacecraft used to take astronauts to the International Space Station…
A:
Q: A proton is located at (0, 0, -3.5 x 10-9) m, and an alpha particle (consisting of two protons and…
A:
Q: A 7.0 kg object is resting on a plane that is inclined at 12° to the horizontal. Complete the vector…
A: A 7kg object rest in an inclined plane at an angle of 12degree.Therefore net force in this object is…
Q: You are on a deep space mission to search for Earth-like planets. Your crew locates a possible…
A: Given Radius of the point R=7.5x106 mmass m= 1.0 kgReading of spring scale=8.5 N
Q: Newton’s universal law of gravitation states that every particle in the universe attracts every…
A: Answer :---------(a) True Newton’s universal law of gravitation states that every particle in the…
Q: Two uniform spheres are positioned as shown. Determine the gravitational force F which the titanium…
A: The distance between the spheres is 3.9R. The value of R is 30 mm. The angle between the line of…
Q: Ꮎ Chain Fixture Rope
A: Here we will find the work done on fixture
Q: A 110 g ball bobbing up and down on the ocean as the waves roll by has a vertical position that can…
A:
Q: In a cathode ray tube, electrons are accelerated from rest by a constant electric force of magnitude…
A: Force = 6.4 * 10-17 N first length (L) = 7.1 cm = 0.071 msecond length (l) = 45 cm = 0.45 mMass of…
Q: 2. You pull with a force of 255 N on a rope that is attached to a block of mass 30 kg, and the block…
A:
Q: In the Bohr model of the hydrogen atom, the speed of the electron is approximately 2.44 × 10^6 m/s.…
A:
Q: A crate of mass m=66.2 kg is on a horizontal surface. Assume there is no friction between the crate…
A:
Q: A 2070 kg space station orbits Earth at an altitude of 5.25 x 105 m. Find the magnitude of the force…
A:
Q: An astronaut, with her space-suit, has a mass of 80 kg. The gravitational field strength on the Moon…
A: The objective of the question is to calculate the gravitational field strength on the surface of…
Q: 1. Two objects attract each other gravitationally with a force of 2.2×10−10 NN when they are 0.65 mm…
A:
Q: The drawing below shows three particles far away from any other objects and located on a straight…
A: The magnitude of net gravitational force acting on on the particle A is,…
Q: A. Use the relation g=- to find the acceleration due to gravity on the surface GM R²₂ of the Moon.…
A:
Q: 3. The gravitational field strength at some position far above the earth is 8.2 N/kg. a. What force…
A: "Since you have asked Multiple Questions as per Bartleby's Guidelines we will answer only the first…
Q: The drawing shows three particles far away from any other objects and located on a straight line.…
A: Mass of body A = 323 Kg Mass of body B = 572 Kg Mass of body C = 199 Kg
Step by step
Solved in 2 steps with 2 images
- 3Farrell has just begun the astronaut training program at NASA. As part of the program he weighs himself on the surface of the earth and finds that he has a mass of 110 Kg. The mass of the earth is 5.98E+24 kg. a.What is the weight (in Newtons) of the astronaut on the surface of the earth (6370000 meters from the center of the earth)? b.because of his optimal weight and hard work in training, Farrell is chosen to collect data from space around earth and is launched up to twice the earth's radius (double the distance to the center of mass). what is his weight or force of gravity at this altitude? c.Calculate the force of gravity on this astronaut in the ISS:If I know the acceleration of gravity is 2 times the coefficient x^2 and x^2 = 5.1591 How do i find the acceleration of gravity ? Y= 1/2 g t^2 Y= 5.1591x^2 - 0.0864x + 0.0545
- Two forces, F1 and F2, act at a point. F1 has a magnitude of 8.60 N and is directed at an angle of 55.0∘ above the negative x-axis in the second quadrant. F2 has a magnitude of 5.60 N and is directed at an angle of 52.1∘ below the negative x-axis in the third quadrant. a. what are the x and y components of the resultant force? b. What is the magnitude of the resultant force?a.) Find the net force on the Moon (mM=7.35×1022kg)(mM=7.35×1022kg) due to the gravitational attraction of both the Earth (mE=5.98×1024kg)(mE=5.98×1024kg) and the Sun (mS=1.99×1030kg)(mS=1.99×1030kg), assuming they are at right angles to each other (Figure 1). Express your answer to three significant figures and include the appropriate units. Fnet= __________ ____________ b.) Determine the direction of the net force. Express your answer to three significant figures and include the appropriate units. θ= ______________ ___________1. You and a friend set up an umbrella and chairs at Torrey Pines State Beach. Your friend goes boogie boarding while you read a book. Half an hour later you are surprised to see that your friend has moved south, parallel to the beach. They are still boogie boarding the same distance from shore, in the surf zone. Why did your friend drift parallel to the beach? 2. The Sun is much more massive than the Moon, but the Moon has a bigger influence on Earth's tides than the Sun. Why is this? 3. Even when there is no wind at the beach, we still see waves. What is the source of these waves? Do not include tides, mass movement, or earthquakes in your answer. 4. What causes ocean surface water to sink to the bottom and become deep water? Where does this happen? 5. How do you escape a Rip Current?
- A 10.0 kg mass is acted on by the two forces: and F1=(3.0N)i+(2.0N)j and F2=(10.0N)i+(7N.0)7 a) Express the summation of these two forces in unit vector notation. That is: b) What is the acceleration of this mass while these forces are acting? Write your answer in unit vector notation. c) What is the direction of the acceleration (give the angle of acceleration with the x axis)?Two forces are exerted on an object: a force A with an x-component of 9.00[N] and a y-component of -2.40[N], and a force B with an x-component of -13.30[N] and a y-component of 23.60[N]. Assuming these are the only two forces on the object, what is the magnitude of the net force on the object? Express your answer in N.Task 1: Gravitational Fields 1. A person with a mass of 60 kg is inside a rocket that is moving straight up, away from the earth's surface. The radius of the earth is 6.38 x 105 m and the mass of the earth is 5.98 x 1024 kg. a. Find the force of gravity acting on the person at an altitude of 300 000 m. b. Find the altitude that will cause the person's weight to drop to one-quarter of its value on the earth's surface. 2. Mass 1 is four times as large as mass 2. Both masses are at rest and are separated by 200 m. Where could you place a third mass, mass 3, if the net force on 3 must be zero?
- A microscopic spherical dust particle of radius r and mass m is moving in outer space at a constant speed v. A wave of light strikes it from the opposite direction of its motion and gets absorbed. Part A) Assuming the particle decelerates uniformly to zero speed in time t, write an equation for the average electric field amplitude in the light.An electron travels with v =5.90×10^6i^m/s through a point in space where E =(2.20×10^5i−2.20×10^5j^)V/m and B =−0.180k^T. What is the force on the electron? Express vector F in the form Fx, Fy, where the x and y components are separated by a comma.The mass of the Sun is 2 × 10³⁰0 kg, and the mass of Mercury is 3.3 × 10²³ kg. The distance from the center of mass of the Sun to the center of mass of Mercury is 4.8 x 10¹⁰ m. a. Calculate the magnitude of the gravitational force exerted by the Sun on Mercury. b. What is the magnitude of the gravitational force exerted by Mercury on the Sun?