
Moon Poster
... newly formed Earth, around 4.6 billion years ago, and debris from the impact produced molten rock from the Earth which combined with the other planet to form the Moon. Subsequent large impacts produced the Moon’s basins, and smaller impacts the craters. A very small number of lunar craters may be of ...
... newly formed Earth, around 4.6 billion years ago, and debris from the impact produced molten rock from the Earth which combined with the other planet to form the Moon. Subsequent large impacts produced the Moon’s basins, and smaller impacts the craters. A very small number of lunar craters may be of ...
Moon an Elipses
... First impact: Luna 2 of Soviet Union in 1959 First far side picture: Luna 3 in 1959 First soft landing: Luna 9 in 1966 First men’s step on the moon: Apollo 11 in 1969 ...
... First impact: Luna 2 of Soviet Union in 1959 First far side picture: Luna 3 in 1959 First soft landing: Luna 9 in 1966 First men’s step on the moon: Apollo 11 in 1969 ...
Moon Phases Filled In
... The moon orbits 9 degrees around the Earth every day It takes 29.5 days for a full moon cycle to happen, from full moon to full moon. Remember this because it is roughly a “moonth”! The moon rotates counterclockwise. Name ...
... The moon orbits 9 degrees around the Earth every day It takes 29.5 days for a full moon cycle to happen, from full moon to full moon. Remember this because it is roughly a “moonth”! The moon rotates counterclockwise. Name ...
The Sun-Earth-Moon PPT Notes
... I. The Changeable Moon A. The Motion of the Moon B. The Cycle of Phases II. Lunar Eclipses A. Earth's Shadow B. Total Lunar Eclipses C. Partial and Penumbral Lunar Eclipses ...
... I. The Changeable Moon A. The Motion of the Moon B. The Cycle of Phases II. Lunar Eclipses A. Earth's Shadow B. Total Lunar Eclipses C. Partial and Penumbral Lunar Eclipses ...
m09a01
... further from the Sun is significantly more difficult.) To send a spacecraft plus human occupants from Earth to the Moon and back required a significant payload. A spacecraft that massive would have been dangerously cumbersome to maneuver for landing and takeoff on the Moon. ...
... further from the Sun is significantly more difficult.) To send a spacecraft plus human occupants from Earth to the Moon and back required a significant payload. A spacecraft that massive would have been dangerously cumbersome to maneuver for landing and takeoff on the Moon. ...
Exercise 1
... _______________, orbits ______ miles above the Moon’s surface. i. Satellite is carrying ________ tools/instruments. b. There is no dark ___________ spots on the far side of the Moon. c. The Moon was initially shaped like an _________, but as it go farther away from Earth, it became more ____________ ...
... _______________, orbits ______ miles above the Moon’s surface. i. Satellite is carrying ________ tools/instruments. b. There is no dark ___________ spots on the far side of the Moon. c. The Moon was initially shaped like an _________, but as it go farther away from Earth, it became more ____________ ...
Lunar Sample Science Today 3
... rays from fresh craters. NASA photo no. 84-31673 (Lick Observatory) ...
... rays from fresh craters. NASA photo no. 84-31673 (Lick Observatory) ...
Lesson 2 Power Notes Outline
... • Smaller bodies that travel around planets are natural satellites called moons. • Gravity is the force that pulls all bodies that have mass toward other objects. • Earth’s gravitational pull on the moon keeps the moon in orbit, forming the Earth-moon system. • The distance between Earth and the moo ...
... • Smaller bodies that travel around planets are natural satellites called moons. • Gravity is the force that pulls all bodies that have mass toward other objects. • Earth’s gravitational pull on the moon keeps the moon in orbit, forming the Earth-moon system. • The distance between Earth and the moo ...
Exercise 1: Earth`s Moon
... c. The Moon was initially shaped like an _________, but as it go farther away from Earth, it became more _____________. Earth’s gravity pulled softened rock to one side of the Moon during its initial development. This has caused differences in the Moon’s weak gravitational field. i. High density mas ...
... c. The Moon was initially shaped like an _________, but as it go farther away from Earth, it became more _____________. Earth’s gravity pulled softened rock to one side of the Moon during its initial development. This has caused differences in the Moon’s weak gravitational field. i. High density mas ...
Design of a Locomotive Engine for Dalian Locomotive & Rolling
... – Slumping of crater walls. – Formation of ejecta blankets, ...
... – Slumping of crater walls. – Formation of ejecta blankets, ...
Moon Phases and Eclipses
... • A body that orbits a larger body is called a satellite. • Smaller bodies that travel around planets are natural satellites called moons. • Gravity is the force that pulls all bodies that have mass toward other objects. • Earth’s gravitational pull on the moon keeps the moon in orbit, forming the E ...
... • A body that orbits a larger body is called a satellite. • Smaller bodies that travel around planets are natural satellites called moons. • Gravity is the force that pulls all bodies that have mass toward other objects. • Earth’s gravitational pull on the moon keeps the moon in orbit, forming the E ...
earths moon notes no lines
... crater a bowl-shaped depression that forms on the surface of an object when a falling body strikes the object’s surface or when an explosion occurs ...
... crater a bowl-shaped depression that forms on the surface of an object when a falling body strikes the object’s surface or when an explosion occurs ...
Earth`s Moon!
... satellite - a natural or artificial body that revolves around planet. moon - a body that revolves around a planet and that has less mass than the planet does. Seven of the planets in our solar system have natural satellites, or moons. Our moon is Earth’s satellite. ...
... satellite - a natural or artificial body that revolves around planet. moon - a body that revolves around a planet and that has less mass than the planet does. Seven of the planets in our solar system have natural satellites, or moons. Our moon is Earth’s satellite. ...
Page 190 7.3 Orbit and Motions of the Moon By watching the
... Unlike almost all other large moons, our Moon has an orbit with a large tilt with respect to its planet's equator. In discussing eclipses in chapter 1, we noted that the Moon's orbit is tilted by a little more than 5° with respect to the Earth's orbit around the Sun. As a result, its orbit is tilte ...
... Unlike almost all other large moons, our Moon has an orbit with a large tilt with respect to its planet's equator. In discussing eclipses in chapter 1, we noted that the Moon's orbit is tilted by a little more than 5° with respect to the Earth's orbit around the Sun. As a result, its orbit is tilte ...
Origin of the Earth and Moon - Lunar and Planetary Institute
... > 11,000º 104 11,000º 9100 10,000º 8200 9100º 7100 8200º 6200 7100º 5100 6200º 4200 5100º 3100 4200º ...
... > 11,000º 104 11,000º 9100 10,000º 8200 9100º 7100 8200º 6200 7100º 5100 6200º 4200 5100º 3100 4200º ...
Chapter 21
... Rate of impacts due to interplanetary bombardment decreased rapidly after the formation of the solar system. Most craters seen on the surface of the moon (and Mercury) were formed within the first 1/2 billion years. ...
... Rate of impacts due to interplanetary bombardment decreased rapidly after the formation of the solar system. Most craters seen on the surface of the moon (and Mercury) were formed within the first 1/2 billion years. ...
Rocky statistics The Moon`s origin and age • 16 • 14 • 12 • 17 • 11 •15
... process. We now can explain many of the previously puzzling chemical features of the rocks the Apollo missions brought back from the Moon. The chronology of lunar samples (based on dating methods that use various radioactive isotopes) can tell us about the detailed time sequence as well as processes ...
... process. We now can explain many of the previously puzzling chemical features of the rocks the Apollo missions brought back from the Moon. The chronology of lunar samples (based on dating methods that use various radioactive isotopes) can tell us about the detailed time sequence as well as processes ...
Phases of the Moon More Phases Two perspectives: On Earth, or
... Lecture Tutorial: The Cause of Moon Phases (pg. 81-83) • Work with a partner! • Read the instructions and questions carefully. • Discuss the concepts and your answers with one another. • Come to a consensus answer you all agree on. • If you get stuck or are not sure of your answer, ask another ...
... Lecture Tutorial: The Cause of Moon Phases (pg. 81-83) • Work with a partner! • Read the instructions and questions carefully. • Discuss the concepts and your answers with one another. • Come to a consensus answer you all agree on. • If you get stuck or are not sure of your answer, ask another ...
Lecture 5
... The Moon has an external magnetic field of the order of 1–100 nT (nanotesla). This is less than one hundredth of Earth’s magnetic field strength, which is 30–60 µT (microtesla). Other major differences are that the Moon does not currently have a dipolar magnetic field (as would be expected from a ge ...
... The Moon has an external magnetic field of the order of 1–100 nT (nanotesla). This is less than one hundredth of Earth’s magnetic field strength, which is 30–60 µT (microtesla). Other major differences are that the Moon does not currently have a dipolar magnetic field (as would be expected from a ge ...
Surface of the Moon
... – G.K. Gilbert: "father of lunar geology": proposed dominance of impact processes vs. volcanic processes (crazy idea at the time!) – H.C. Urey: "father of planetary science": lunar geochemistry and implications for formation of the Earth and planets. – E.M. Shoemaker: Founder of modern-day studies o ...
... – G.K. Gilbert: "father of lunar geology": proposed dominance of impact processes vs. volcanic processes (crazy idea at the time!) – H.C. Urey: "father of planetary science": lunar geochemistry and implications for formation of the Earth and planets. – E.M. Shoemaker: Founder of modern-day studies o ...
To the Moon!!
... • Impact Theory – Earth collided with a large object (the size of Mars or larger) sending pieces of the earth into space, which eventually became the moon (most ...
... • Impact Theory – Earth collided with a large object (the size of Mars or larger) sending pieces of the earth into space, which eventually became the moon (most ...
The Moon
... from explorations by space probes and astronauts. The first step was taken in 1957 with the ...
... from explorations by space probes and astronauts. The first step was taken in 1957 with the ...
TRUST-Moons-2005
... understood planetary body in the solar system. Many of our current theories and hypotheses of how the Earth and other planets formed were developed and tested by studying the moon. ...
... understood planetary body in the solar system. Many of our current theories and hypotheses of how the Earth and other planets formed were developed and tested by studying the moon. ...
Phases of the Moon, Eclipses, Precession
... • Do people want homeworks for weeks without exams to be due on Wednesdays? (A=Monday, B=Tuesday, C=Wednesday) ...
... • Do people want homeworks for weeks without exams to be due on Wednesdays? (A=Monday, B=Tuesday, C=Wednesday) ...
Moon landing

A moon landing is the arrival of a spacecraft on the surface of the Moon. This includes both manned and unmanned (robotic) missions. The first human-made object to reach the surface of the Moon was the Soviet Union's Luna 2 mission, on 13 September 1959.The United States' Apollo 11 was the first manned mission to land on the Moon, on 20 July 1969. There have been six manned U.S. landings (between 1969 and 1972) and numerous unmanned landings, with no soft landings happening from 22 August 1976 until 14 December 2013. To date, the United States is the only country to have successfully conducted manned missions to the Moon.