1. After watching the ​Simple Distillation​ video and collecting your data, what additional observations would you make? Was enough distillate collected? Was the distillation done correctly according...

1. After watching the ​Simple Distillation​ video and collecting your data,
what additional observations would you make? Was enough distillate
collected? Was the distillation done co
ectly according to the
procedure? ( <60 words )
https:
youtu.be/YI-DckN9Jko


2. After watching the video of the ​Fractional Distillation​ and collecting
your data, what additional observations would you make? Was
enough distillate collected? Was the distillation done co
ectly
according to the procedure? ( <60 words )
https:
youtu.be/iebtXAQKqO8





starts from this below chart then question 5 to 33. All need to be completed for this HW. Update
https:
youtu.be/YI-DckN9Jko
https:
youtu.be/iebtXAQKqO8

chart instruction in picture above. Just need to confirm numbers and All.
For 5 I got 1.675 ….. Is that what u got?
Question 11:


Explain the results of ​Graph 2​ based on your understanding of distillation
theory. How might you improve your separation? (< 120 words)

Q.15 below ​:\ I think answer is 7 can you just confirm or deny
14 I think is C can you confirm?Any others or no ?



Risk Assessment Template RAMP
The purpose of the template is to provide a structured risk assessment of procedures involving
chemicals.
Recognize the hazards
List all chemicals and their hazards according to published SDS
Chemical 1
Compound name:
CAS number:
Physical state:
Solution Solvent: Concentration:
Container size: XXXXXXXXXXUnits: Container material:
Amount used: Units:
Hazards
GHS H-Code and Hazard Statements Comments
Explosive
Flammable Flash point:
Oxidizing
Compressed gas
Co
osive
Toxic LD50=
LC50=
Harmful
Health
Environment
Incompatible with:
Last Name First Name SID
oC
List all chemicals and their hazards according to published SDS
Concentration:
Units: Container material:
Chemical 2
Compound name:
CAS number:
Physical state:
Solution Solvent:
Container size:
Amount used: Units:
Hazards
GHS H-Code and Hazard Statements Comments
Explosive
Flammable Flash point:
Oxidizing
Compressed gas
Co
osive
Toxic LD50=
LC50=
Harmful
Health
Environment
Incompatible with:
Last Name First Name SID
oC
List all chemicals and their hazards according to published SDS
Concentration:
Units: Container material:
Chemical 3
Compound name:
CAS number:
Physical state:
Solution Solvent:
Container size:
Amount used: Units:
Hazards
GHS H-Code and Hazard Statements Comments
Explosive
Flammable Flash point:
Oxidizing
Compressed gas
Co
osive
Toxic LD50=
LC50=
Harmful
Health
Environment
Incompatible with:
Last Name First Name SID
oC
List all chemicals and their hazards according to published SDS
Concentration:
Units: Container material:
Chemical 4
Compound name:
CAS number:
Physical state:
Solution Solvent:
Container size:
Amount used: Units:
Hazards
GHS H-Code and Hazard Statements Comments
Explosive
Flammable Flash point:
Oxidizing
Compressed gas
Co
osive
Toxic LD50=
LC50=
Harmful
Health
Environment
Incompatible with:
Last Name First Name SID
oC
List all chemicals and their hazards according to published SDS
Concentration:
Units: Container material:
Chemical 5
Compound name:
CAS number:
Physical state:
Solution Solvent:
Container size:
Amount used: Units:
Hazards
GHS H-Code and Hazard Statements Comments
Explosive
Flammable Flash point:
Oxidizing
Compressed gas
Co
osive
Toxic LD50=
LC50=
Harmful
Health
Environment
Incompatible with:
Last Name First Name SID
oC
List all chemicals and their hazards according to published SDS
Concentration:
Units: Container material:
Chemical 6
Compound name:
CAS number:
Physical state:
Solution Solvent:
Container size:
Amount used: Units:
Hazards
GHS H-Code and Hazard Statements Comments
Explosive
Flammable Flash point:
Oxidizing
Compressed gas
Co
osive
Toxic LD50=
LC50=
Harmful
Health
Environment
Incompatible with:
Last Name First Name SID
oC
Assess the Risk
Chemicals
Quantity
Possible ignition sources:
Temperature:
Flammability
Overall toxicity:
Co
osive (Eye/skin damage):
Level of training/experience for this task:
Possible mishaps during operations:
Possible failure of equipment:
Risk matrix
Impact Likelihood Severity Risk Rational
Contact
exposure
Inhalation
exposure
Fire
Explosion/
Implosion
Physical (burn,
cut/ puncture)
Radiation
damage
This risk assessment form is based on a holistic assessment that provides a practical method for assessing the
isk of experimental steps. If steps of high risk are identified, there is a need to reassess those steps with a
‘higher resolution’. See instructions on last page for more guidance on how to respond.
Procedural step 1*:
Chemicals
Quantity
Possible ignition sources:
Temperature:
Flammability
Overall toxicity:
Co
osive (Eye/skin damage):
Level of training/experience for this task:
Possible mishaps during operations:
Possible failure of equipment:
Risk matrix
Impact Likelihood Severity Risk Rational
Contact
exposure
Inhalation
exposure
Fire
Explosion/
Implosion
Physical (burn,
cut/ puncture)
Radiation
damage
Procedural step 2*:
Chemicals
Quantity
Possible ignition sources:
Temperature:
Flammability
Overall toxicity:
Co
osive (Eye/skin damage):
Level of training/experience for this task:
Possible mishaps during operations:
Possible failure of equipment:
Risk matrix
Impact Likelihood Severity Risk Rational
Contact
exposure
Inhalation
exposure
Fire
Explosion/
Implosion
Physical (burn,
cut/ puncture)
Radiation
damage
Procedural step 3*:
used for a workup step, the flammability level will be dictated by the chemical with the lowest flash point.
Notice that the H-codes statements indicate the relative level of hazard. For example,
Fatal>Toxic>Harmful.
Possible mishaps: Use ‘what if?’ approach to identify possible failures during operation. For example:
‘What if the heat plate will over heat?’,‘What if the cooling will stop?’ , ‘What if the reaction will be
exposed to air?’
Likelihood: What is the likelihood of a mishap that will result in this impact? For example: what is the
probability of a spill that will lead to inhalation exposure. This is a subjective assessment and depend on
many factors including the complexity of the operation and the level of experience.
Severity: If mishaps occur, what will be the severity of the outcome. For example: if inhalation exposure
take place, how sever is the outcome (based on the identified health hazards , quantity and volatility)
Risk: Use the following matric to evaluate risk
* Instructions:
Procedural step: A Procedural step is a distinctive part of the experiment that can be assessed as one
unit. For example, typical procedural steps during organic synthesis are: setup
eaction progress/ workup
(quenching,extractions, filtration) /purification (chromatography, distillation)/evaporation /waste disposal
Chemicals: Name and concentration if applicable. Examples: Chloroform, 5M NaOH Assessing the
hazard level of chemical agents: To assess flammability/Toxicity/co
osivity use the chemical with the
highest hazard level in each category. Example: If three chemicals are
    RAMP template Part 1 form v3
    RAMP Template part 2 pdf V5
    CommentsExplosive:
    comment_Ox:
    comment_gas:
    comment_co
:
    comment_harm:
    comment_health:
    comment_env:
    Check Box1: Off
    chem_name2:
    CAS2:
    phys_state: [ ]
    solvent:
    conc:
    cont_size:
    amount_used:
    Incompatible:
    Check_Expl: Off
    Check_Flam: Off
    Check_Ox: Off
    check_compgas: Off
    Check_Co
: Off
    Check_Tox: Off
    Check_Harm: Off
    Check_health: Off
    Check_Env: Off
    code_flamm1: [ ]
    contain_mat: [ ]
    cont_units: [ ]
    used_units: [ ]
    code_flamm2: [ ]
    code_flamm3: [ ]
    flash_pt:
    comment_flamm:
    Code_Ox: [ ]
    Code_gas: [ ]
    Code_co
1: [ ]
    Code_co
2: [ ]
    LD50:
    LC50:
    Code_tox1: [ ]
    Code_tox2: [ ]
    Code_harm1: [ ]
    Code_harm2: [ ]
    Code_health1: [ ]
    Code_health2: [ ]
    Code_env1: [ ]
    Code_env2: [ ]
    Last Name:
    First Name:
    SID:
    CommentsExplosive25:
    comment_Ox25:
    comment_gas25:
    comment_co
25:
    comment_harm25:
    comment_health25:
    comment_env25:
    Check Box125: Off
    chem_name24:
    CAS24:
    phys_state25: [ ]
    solvent25:
    conc25:
    cont_size25:
    amount_used25:
    Incompatible25:
    Check_Expl25: Off
    Check_Flam25: Off
    Check_Ox25: Off
    check_compgas25: Off
    Check_Co
25: Off
    Check_Tox25: Off
    Check_Harm25: Off
    Check_health25: Off
    Check_Env25: Off
    Code_Expl25: [ ]
    code_flamm125: [ ]
    contain_mat25: [ ]
    cont_units25: [ ]
    used_units25: [ ]
    code_flamm225: [ ]
    code_flamm325: [ ]
    flash_pt25:
    comment_flamm25:
    Code_Ox25: [ ]
    Code_gas25: [ ]
    Code_co
125: [ ]
    Code_co
225: [ ]
    LD5025:
    LC5025:
    Code_tox125: [ ]
    Code_tox225: [ ]
    Code_harm125: [ ]
    Code_harm225: [ ]
    Code_health125: [ ]
    Code_health225: [ ]
    Code_env125: [ ]
    Code_env225: [ ]
    CommentsExplosive34:
    comment_Ox34:
    comment_gas34:
    comment_co
34:
    comment_harm34:
    comment_health34:
    comment_env34:
    Check Box134: Off
    chem_name33:
    CAS33:
    phys_state34: [ ]
    solvent34:
    conc34:
    cont_size34:
    amount_used34:
    Incompatible34:
    Check_Expl34: Off
    Check_Flam34: Off
    Check_Ox34: Off
    check_compgas34: Off
    Check_Co
34: Off
    Check_Tox34: Off
    Check_Harm34: Off
    Check_health34: Off
    Check_Env34: Off
    Code_Expl34: [ ]
    code_flamm134: [ ]
    contain_mat34: [ ]
    cont_units34: [ ]
    used_units34: [ ]
    code_flamm234: [ ]
    code_flamm334: [ ]
    flash_pt34:
    comment_flamm34:
    Code_Ox34: [ ]
    Code_gas34: [ ]
    Code_co
134: [ ]
    Code_co
234: [ ]
    LD5034:
    LC5034:
    Code_tox134: [ ]
    Code_tox234: [ ]
    Code_harm134: [ ]
    Code_harm234: [ ]
    Code_health134: [ ]
    Code_health234: [ ]
    Code_env134: [ ]
    Code_env234: [ ]
    CommentsExplosive43:
    comment_Ox43:
    comment_gas43:
    comment_co
43:
    comment_harm43:
    comment_health43:
    comment_env43:
    Check Box143: Off
    chem_name42:
    CAS42:
    phys_state43: [ ]
    solvent43:
    conc43:
    cont_size43:
    amount_used43:
    Incompatible43:
    Check_Expl43: Off
    Check_Flam43: Off
    Check_Ox43: Off
    check_compgas43: Off
    Check_Co
43: Off
    Check_Tox43: Off
    Check_Harm43: Off
    Check_health43: Off
    Check_Env43: Off
    Code_Expl43: [ ]
    code_flamm143: [ ]
    contain_mat43: [ ]
    cont_units43: [ ]
    used_units43: [ ]
    code_flamm243: [ ]
    code_flamm343: [ ]
    flash_pt43:
    comment_flamm43:
    Code_Ox43: [ ]
    Code_gas43: [ ]
    Code_co
143: [ ]
    Code_co
243: [ ]
    LD5043:
    LC5043:
    Code_tox143: [ ]
    Code_tox243: [ ]
    Code_harm143: [ ]
    Code_harm243: [ ]
    Code_health143: [ ]
    Code_health243: [ ]
    Code_env143: [ ]
    Code_env243: [ ]
    CommentsExplosive52:
    comment_Ox52:
    comment_gas52:
    comment_co
52:
    comment_harm52:
    comment_health52:
    comment_env52:
    Check Box152: Off
    chem_name51:
    CAS51:
    phys_state52: [ ]
    solvent52:
    conc52:
    cont_size52:
    amount_used52:
    Incompatible52:
    Check_Expl52: Off
    Check_Flam52: Off
    Check_Ox52: Off
    check_compgas52: Off
    Check_Co
52: Off
    Check_Tox52: Off
    Check_Harm52: Off
    Check_health52: Off
    Check_Env52: Off
    Code_Expl: [ ]
    code_flamm152: [ ]
    contain_mat52: [ ]
    cont_units52: [