Two planets of mass 2 x 1025kg are release from rest 9.0 x 1012 m apart. What is the speed of the planets when they are half this distance apart?
Q: If a particle is released from x = a, what is the minimum amount of kinetic energy required such…
A:
Q: A planet has a radius of R = 7.5 x106 m. In that planet, if someone is standing on top of a ladder…
A:
Q: A proton (mass m = 1.67 x 10-27 kg) is being accelerated along a straight line at 1.10 × 1012 m/s²…
A:
Q: A particular spring has a rest length of 5.0 cm when it is not compressed, and a length of 4.5 cm…
A: Given data: The free length of spring is l=5 cm. Length with m=10 kg l'=4.5 cm. Acceleration of…
Q: An electron in a television tube is accelerated uniformly from rest to a speed of 8.6 × 107 m/s over…
A: From this information we will find the acceleration of the electron, which remains constant for any…
Q: A 5.4 * 10^5 kg subway train is brought to a stop from a speed of 0.85 m/s in 0.33 m by a large…
A: Given data The mass of the train is given as m = 5.4 x 105 kg. The speed of the train is given as v…
Q: 33. A skier is sliding downhill at 8 m/s when she reaches an the icy patch on which her skis move…
A:
Q: Two planets of mass 1 x 1025kg are release from rest 8.0 x 1012 m apart. What is the speed of the…
A: Given: Mass of planets : m1=m2=m=1×1025 kg Distance r=8.0×1012m To find the speed ''v'' at half the…
Q: You drop a 1.50 kg book to a friend who stands on the ground at distance D= 12.0 m below. Your…
A: Given: D=12.0 m d = 1.80m m = 1.5kg
Q: 4. Two particles with mass m, and m2 are floating in space connected by a massless spring with…
A: Given Two particle mass = m1 and m2 Spring constant = k Length = l Find the, V1…
Q: A single force F(x) = −8.0x (in newtons) acts on a 3.0-kg body. When x = 6.75 m, the speed of the…
A: Given, Force, Fx = -8xMassm = 3 kg , when x = 6.75 m , v = 4 m/swhen x=2.5m , v = ?
Q: At the Earth's surface, a projectile is launched straight up at a speed of 6.3 km/s. To what height…
A: Given data The speed of the projectile is u = 6.3 km/s = 6300 m/s The expression for energy…
Q: A block on a horizontal spring slides along a horizontal frictionless surface. The mass of the black…
A: The mass of the block is given as .The spring constant of the block is The block is stretched a…
Q: answer the following question "When is the velocity of the mass at a maximum? Justify your answer"…
A:
Q: Don't use chatgpt
A: The objective of the question is to find the power delivered to the electron at the instant that its…
Q: You drop a 1.40 kg book to a friend who stands on the ground at distance D = 13.0 m below. Your…
A:
Q: The potential energy of a pair of hydrogen atoms separated by a large distance xx is given by…
A:
Q: (d) If the particle is very close to the origin (x approximated as that of a simple harmonic…
A:
Step by step
Solved in 2 steps with 2 images
- A pendulum consists of a bob of mass m and a string of constant length 1 = 63.0 cm and negligible mass. The free end of the string is attached to a fixed point A and the pendulum swings to-and-fro in a vertical plane. A 1-h speed of bob = h 30° U If the pendulum bob has a speed u = 3.10 m s¹ at the lowest point of its swing, what is the speed of the bob when the string makes an angle of 30° with the vertical, as indicated in the diagram? Give your answer by entering a number, specified to an appropriate number of significant figures, in the empty box below. 1 ms-1.A 0.25 kg mass is placed on a vertically oriented spring that is stretched 0.56 meters from its equilibrium position. If the spring constant is 105 N/m, how fast will the mass be moving when it reaches the equilibrium position? Hint: You cannot ignore the change in gravitational potential energy in this problem. Please give you’re answer in m/s.1) a) What is the work done when a box weighing 10N is lifted up onto a shelf 2m above the floor? b) If we consider the acceleration due to gravity to be 10 ms^-2 and the same box (weighing 10N) moves at 10 ms^-1 how much kinetic energy is used? c) How much potential energy does the box have when it is on the shelf? d) Thinking about the conservation of energy, if a block of mass 20kg falls off a shelf that is 3m above the ground what is the velocity of the box just before it hits the ground?
- . An electron in a television tube is accelerated uniformly from rest to a speed of 8.4×107m/s over a distance of 2.5 cm. What is the power delivered to the electron at the instant that its displacement is 1.0 cm?You drop a 2.20 kg book to a friend who stands on the ground at distance D = 15.0 m below. Your friend's outstretched hands are at distance d = 1.30 m above the ground (see the figure). (a) What is the speed of the book when it reaches her hands? (b) If we substituted a second book with twice the mass, what would its speed be when it reaches her hands? (c) If, instead, the book were thrown down with initial speed 6.80 m/s, what would be the answer to (a)? (a) Number i Units (b) Number i Units (c) Number i Units2.
- How much energy is stored in a pinball machine spring (constant = 750N/m) that is compressed 3.0cm?A ball is launched directly upwards from the ground. At max height, the ball has a gravitational potential energy of 200 J. If the ball the ball has a mass of 4 kg, then what was the initial velocity of the ball? Report your answer in units of meters per second (m/s) but only write down the number part.Two planets of mass 3 x 1025kg are release from rest 2.0 x 1012 m apart. What is the speed of the planets when they are half this distance apart?
- You drop a 1.40 kg book to a friend who stands on the ground at distance D = 12.0 m below. Your friend's outstretched hands are at distance d = 1.30 m above the ground (see the figure). (a) What is the speed of the book when it reaches her hands? (b) If we substituted a second book with twice the mass, what would its speed be when it reaches her hands? (c) If, instead, the book were thrown down with initial speed 5.90 m/s, what would be the answer to (a)? (a) Number i Units (b) Number i UnitsA 150 g particle at x = 0 is moving at 8.00 m/sm/s in the +x-direction. As it moves, it experiences a force given by Fx=(0.350N)sin(x/2.00m) what is the particles speed when it reaches x= 3.14 m?Point Height (y) (m) Speed (v) (m/s) Potential Energy (J) Kinetic Energy (J) Mechanical Energy (round off to the nearest thousands) A 8 m 0 m/s 3430 J 0 J 3000 J B 3 m 8.8 m/s 1470 J 1936 J 3000 J C 2 m 9.9 m/s 980 J 2450 J 3000 J - Calculate the ratio of the mechanical energy at B and mechanical energy at A (EB/EA) and (EC/EB). What do these ratios tell you about the conservation of energy? - Is the mechanical energy conserved between A and B? Explain. - Is the mechanical energy conserved between B and C? Explain