Worksheet answers
... produced 1.60g CO2 and 0.819g H20. Calculate the empirical formula. Ans = C2H5 1.60 / 44.01 = 0.0364 moles CO2 = 0.0364 moles C; 0.819/18.02 = 0.0454 moles H20 = 2 x 0.0454 = 0.0908 moles H so C0.0364 H 0.0908 = CH2.5 = C2H5 (make whole number) b) Upon combustion, a 0.8009g sample of compound contai ...
... produced 1.60g CO2 and 0.819g H20. Calculate the empirical formula. Ans = C2H5 1.60 / 44.01 = 0.0364 moles CO2 = 0.0364 moles C; 0.819/18.02 = 0.0454 moles H20 = 2 x 0.0454 = 0.0908 moles H so C0.0364 H 0.0908 = CH2.5 = C2H5 (make whole number) b) Upon combustion, a 0.8009g sample of compound contai ...
B - AQA
... 4 (b) (i) The gravitational potential at the Earth’s surface is –62.6 MJ kg–1. Point X shown in Figure 5 is on the line of centres between the Earth and the Moon At X the resultant gravitational field is zero, and the gravitational potential is –1.3 MJ kg–1. Calculate the minimum amount of energy th ...
... 4 (b) (i) The gravitational potential at the Earth’s surface is –62.6 MJ kg–1. Point X shown in Figure 5 is on the line of centres between the Earth and the Moon At X the resultant gravitational field is zero, and the gravitational potential is –1.3 MJ kg–1. Calculate the minimum amount of energy th ...
Chem700 MO
... molecular macromolecule). This approach allows to study systems consisting of thousands of atoms but its quality is limited by the choice of the force field/potential. ...
... molecular macromolecule). This approach allows to study systems consisting of thousands of atoms but its quality is limited by the choice of the force field/potential. ...
HONG KONG DIPLOMA OF SECONDARY EDUCATION
... then decide whether or not the second statement is a correct explanation of the first statement. Then select one option from A to D according to the following ...
... then decide whether or not the second statement is a correct explanation of the first statement. Then select one option from A to D according to the following ...
Copenhagen Interpretation
... In 1927, Louis de Broglie suggested that the Schrodinger wavefunction was a real function that guided real particles along their paths. In 1952, David Bohm envisioned that the wave-function included a form of energy not known to classical physics, what he called the "quantum potential" or "pilot wav ...
... In 1927, Louis de Broglie suggested that the Schrodinger wavefunction was a real function that guided real particles along their paths. In 1952, David Bohm envisioned that the wave-function included a form of energy not known to classical physics, what he called the "quantum potential" or "pilot wav ...
Standard - Santee Education Complex
... There are two main types of bonding discussed here. A COVALENT BOND results when two atoms "share" valence electrons between them. An IONIC BOND occurs when one atom gains a valence electron from a different atom, forming a negative ion (ANION) and a positive ion (CATION), respectively. These opposi ...
... There are two main types of bonding discussed here. A COVALENT BOND results when two atoms "share" valence electrons between them. An IONIC BOND occurs when one atom gains a valence electron from a different atom, forming a negative ion (ANION) and a positive ion (CATION), respectively. These opposi ...
Getting Wild With the NGSS HS PEs
... into stored chemical energy and the role photosynthesis and cellular respiration play in the cycling of carbon among the biosphere, atmosphere, hydrosphere, and geosphere. [Clarification Statement: Emphasis is on illustrating inputs and outputs of matter and the transfer and transformation of energy ...
... into stored chemical energy and the role photosynthesis and cellular respiration play in the cycling of carbon among the biosphere, atmosphere, hydrosphere, and geosphere. [Clarification Statement: Emphasis is on illustrating inputs and outputs of matter and the transfer and transformation of energy ...
4.IonicCompounds - Gleneaglesunit1and2chemistry2012
... state they are not free to move. – When an ionic compound melts, however, the particles are free to move and the compound will conduct electricity. ...
... state they are not free to move. – When an ionic compound melts, however, the particles are free to move and the compound will conduct electricity. ...
File
... volume. The density of materials does not change as the volume or mass changes because the composition of the substance does not change. Many times people think that the density changes because the mass or volume changes. Water has a density of 1.0 g/mL. If an object or substance has a density great ...
... volume. The density of materials does not change as the volume or mass changes because the composition of the substance does not change. Many times people think that the density changes because the mass or volume changes. Water has a density of 1.0 g/mL. If an object or substance has a density great ...
122A_solutions_ch25
... the other because they are relatively free to move. Protons, on the other hand, are tightly bound in nuclei. So, electrons have been removed from the glass rod to make it positively charged. (b) Because each electron has a charge of 1.60 1019 C , the number of electrons removed is ...
... the other because they are relatively free to move. Protons, on the other hand, are tightly bound in nuclei. So, electrons have been removed from the glass rod to make it positively charged. (b) Because each electron has a charge of 1.60 1019 C , the number of electrons removed is ...
Self Evaluation
... c) As per the Pauli exclusion principle electrons possess discrete (not continuous) energy levels, d) The phonons arising from the vibration of the atom cores act as the scattering centres for the free electrons giving rise to decreasing conductivity of metals with increasing temperature. ( ∝ 1/ . ...
... c) As per the Pauli exclusion principle electrons possess discrete (not continuous) energy levels, d) The phonons arising from the vibration of the atom cores act as the scattering centres for the free electrons giving rise to decreasing conductivity of metals with increasing temperature. ( ∝ 1/ . ...
Sept 2012 101 Lecture 5 1
... ► When amber is rubbed with fur, it acquires the ability to attract other materials such as feathers or bits of straw. The force, first observed by Thales, is very weak. ► William Gilbert (1544 – 1603) showed that many other materials exhibit this small force. He coined the word “electric” (after th ...
... ► When amber is rubbed with fur, it acquires the ability to attract other materials such as feathers or bits of straw. The force, first observed by Thales, is very weak. ► William Gilbert (1544 – 1603) showed that many other materials exhibit this small force. He coined the word “electric” (after th ...
Path integral Monte Carlo
... • By introducing NM classical particles, each of which is assigned a fictitious mass and momentum, one can write a molecular dynamics scheme will generate the same configurational averages as the MC scheme • The dynamics will be entirely fictitious and unrelated to the true quantum dynamics. • Smart ...
... • By introducing NM classical particles, each of which is assigned a fictitious mass and momentum, one can write a molecular dynamics scheme will generate the same configurational averages as the MC scheme • The dynamics will be entirely fictitious and unrelated to the true quantum dynamics. • Smart ...
Charge - Ms. Gamm
... •All charged objects produce electric fields •We know that a positive charge will repel another positive charge and attract a negative one •If we draw lines to represent this we would be ...
... •All charged objects produce electric fields •We know that a positive charge will repel another positive charge and attract a negative one •If we draw lines to represent this we would be ...
Bose-Einstein Condensation in Atomic Gases
... temperature) or by decreasing the distance between particles (increase of the density). The two solutions are not equivalent as the latter enhances the inter-particle interactions and one cannot speak any more of free particles. It is instructive to compare orders of magnitude typical for the therma ...
... temperature) or by decreasing the distance between particles (increase of the density). The two solutions are not equivalent as the latter enhances the inter-particle interactions and one cannot speak any more of free particles. It is instructive to compare orders of magnitude typical for the therma ...
Atomic theory
In chemistry and physics, atomic theory is a scientific theory of the nature of matter, which states that matter is composed of discrete units called atoms. It began as a philosophical concept in ancient Greece and entered the scientific mainstream in the early 19th century when discoveries in the field of chemistry showed that matter did indeed behave as if it were made up of atoms.The word atom comes from the Ancient Greek adjective atomos, meaning ""uncuttable"". 19th century chemists began using the term in connection with the growing number of irreducible chemical elements. While seemingly apropos, around the turn of the 20th century, through various experiments with electromagnetism and radioactivity, physicists discovered that the so-called ""uncuttable atom"" was actually a conglomerate of various subatomic particles (chiefly, electrons, protons and neutrons) which can exist separately from each other. In fact, in certain extreme environments, such as neutron stars, extreme temperature and pressure prevents atoms from existing at all. Since atoms were found to be divisible, physicists later invented the term ""elementary particles"" to describe the ""uncuttable"", though not indestructible, parts of an atom. The field of science which studies subatomic particles is particle physics, and it is in this field that physicists hope to discover the true fundamental nature of matter.