3:32
Mellow violin over warm rippling bed of piano, cello pizzicato effects & harp
Key
F (ends in F)
Metre
4/4
Tempo80 bpm (ends at 80)
Tempo NotesSlow
ISRCGB-FFM-10-54604
Publisher
Audio Network Plc
Factoid
If a violinist is placed into an MRI machine, it can be seen that a much larger area of the brain - the right primary motor cortex - is devoted to his or her left fingers when compared with a non-violinist. Two or three times as large, in fact. Violinists also have more connections between the two sides of the brain which account for the better co-ordination they have between each hand compared with a non-violin player.
3:32
Warm rippling piano, cello pizzicato & harp. Underscore, no lead violin
Key
F (ends in F)
Metre
4/4
Tempo80 bpm (ends at 80)
Tempo NotesSlow
ISRCGB-FFM-10-54636
Publisher
Audio Network Plc
Factoid
If a violinist is placed into an MRI machine, it can be seen that a much larger area of the brain - the right primary motor cortex - is devoted to his or her left fingers when compared with a non-violinist. Two or three times as large, in fact. Violinists also have more connections between the two sides of the brain which account for the better co-ordination they have between each hand compared with a non-violin player.
3:27
Beautiful sustained lyrical violin over static piano chords. Very still
Key
F (ends in F)
Metre
4/4
Tempo80 bpm (ends at 80)
Tempo NotesSlow
ISRCGB-FFM-10-54637
Publisher
Audio Network Plc
Factoid
If a violinist is placed into an MRI machine, it can be seen that a much larger area of the brain - the right primary motor cortex - is devoted to his or her left fingers when compared with a non-violinist. Two or three times as large, in fact. Violinists also have more connections between the two sides of the brain which account for the better co-ordination they have between each hand compared with a non-violin player.
3:07
Beautiful sustained lyrical solo violin
Key
F (ends in F)
Metre
4/4
Tempo80 bpm (ends at 80)
Tempo NotesSlow
ISRCGB-FFM-10-54638
Publisher
Audio Network Plc
Factoid
If a violinist is placed into an MRI machine, it can be seen that a much larger area of the brain - the right primary motor cortex - is devoted to his or her left fingers when compared with a non-violinist. Two or three times as large, in fact. Violinists also have more connections between the two sides of the brain which account for the better co-ordination they have between each hand compared with a non-violin player.
1:29
Beautiful sustained lyrical solo violin with harp & marimba
Key
F (ends in F)
Metre
4/4
Tempo80 bpm (ends at 80)
Tempo NotesSlow
ISRCGB-FFM-10-54639
Publisher
Audio Network Plc
Factoid
If a violinist is placed into an MRI machine, it can be seen that a much larger area of the brain - the right primary motor cortex - is devoted to his or her left fingers when compared with a non-violinist. Two or three times as large, in fact. Violinists also have more connections between the two sides of the brain which account for the better co-ordination they have between each hand compared with a non-violin player.
1:27
Glittering magical harp & marimba
Key
F (ends in F)
Metre
4/4
Tempo80 bpm (ends at 80)
Tempo NotesSlow
ISRCGB-FFM-10-54640
Publisher
Audio Network Plc
Factoid
If a violinist is placed into an MRI machine, it can be seen that a much larger area of the brain - the right primary motor cortex - is devoted to his or her left fingers when compared with a non-violinist. Two or three times as large, in fact. Violinists also have more connections between the two sides of the brain which account for the better co-ordination they have between each hand compared with a non-violin player.
1:00
Mellow violin over warm rippling bed of piano, cello pizzicato effects & harp
Key
F (ends in F)
Metre
4/4
Tempo80 bpm (ends at 80)
Tempo NotesSlow
ISRCGB-FFM-10-54641
Publisher
Audio Network Plc
Factoid
If a violinist is placed into an MRI machine, it can be seen that a much larger area of the brain - the right primary motor cortex - is devoted to his or her left fingers when compared with a non-violinist. Two or three times as large, in fact. Violinists also have more connections between the two sides of the brain which account for the better co-ordination they have between each hand compared with a non-violin player.
1:00
Warm piano, cello pizzicato effects & harp. Underscore, no lead violin
Key
F (ends in F)
Metre
4/4
Tempo80 bpm (ends at 80)
Tempo NotesSlow
ISRCGB-FFM-10-54642
Publisher
Audio Network Plc
Factoid
If a violinist is placed into an MRI machine, it can be seen that a much larger area of the brain - the right primary motor cortex - is devoted to his or her left fingers when compared with a non-violinist. Two or three times as large, in fact. Violinists also have more connections between the two sides of the brain which account for the better co-ordination they have between each hand compared with a non-violin player.
1:00
Warm rippling bed of piano, cello pizzicato effects - no violin or harp
Key
F (ends in F)
Metre
4/4
Tempo80 bpm (ends at 80)
Tempo NotesSlow
ISRCGB-FFM-10-54643
Publisher
Audio Network Plc
Factoid
If a violinist is placed into an MRI machine, it can be seen that a much larger area of the brain - the right primary motor cortex - is devoted to his or her left fingers when compared with a non-violinist. Two or three times as large, in fact. Violinists also have more connections between the two sides of the brain which account for the better co-ordination they have between each hand compared with a non-violin player.
1:00
Calm positive piano chords
Key
F (ends in F)
Metre
4/4
Tempo80 bpm (ends at 80)
Tempo NotesSlow
ISRCGB-FFM-10-54644
Publisher
Audio Network Plc
Factoid
If a violinist is placed into an MRI machine, it can be seen that a much larger area of the brain - the right primary motor cortex - is devoted to his or her left fingers when compared with a non-violinist. Two or three times as large, in fact. Violinists also have more connections between the two sides of the brain which account for the better co-ordination they have between each hand compared with a non-violin player.
0:30
Mellow lyrical violin over warm rippling bed of piano, cello pizzicato effects & harp
Key
F (ends in F)
Metre
4/4
Tempo80 bpm (ends at 80)
Tempo NotesSlow
ISRCGB-FFM-10-54645
Publisher
Audio Network Plc
Factoid
If a violinist is placed into an MRI machine, it can be seen that a much larger area of the brain - the right primary motor cortex - is devoted to his or her left fingers when compared with a non-violinist. Two or three times as large, in fact. Violinists also have more connections between the two sides of the brain which account for the better co-ordination they have between each hand compared with a non-violin player.
0:30
Warm rippling bed of piano, cello pizzicato effects & harp. Underscore, no lead violin
Key
F (ends in F)
Metre
4/4
Tempo80 bpm (ends at 80)
Tempo NotesSlow
ISRCGB-FFM-10-54646
Publisher
Audio Network Plc
Factoid
If a violinist is placed into an MRI machine, it can be seen that a much larger area of the brain - the right primary motor cortex - is devoted to his or her left fingers when compared with a non-violinist. Two or three times as large, in fact. Violinists also have more connections between the two sides of the brain which account for the better co-ordination they have between each hand compared with a non-violin player.
0:14
Violin sting with cello & delayed harp effect
Key
F (ends in F)
Metre
4/4
Tempo80 bpm (ends at 80)
Tempo NotesSlow
ISRCGB-FFM-10-54647
Publisher
Audio Network Plc
Factoid
If a violinist is placed into an MRI machine, it can be seen that a much larger area of the brain - the right primary motor cortex - is devoted to his or her left fingers when compared with a non-violinist. Two or three times as large, in fact. Violinists also have more connections between the two sides of the brain which account for the better co-ordination they have between each hand compared with a non-violin player.
0:14
Warm piano, cello & harp sting
Key
F (ends in F)
Metre
4/4
Tempo80 bpm (ends at 80)
Tempo NotesSlow
ISRCGB-FFM-10-54648
Publisher
Audio Network Plc
Factoid
If a violinist is placed into an MRI machine, it can be seen that a much larger area of the brain - the right primary motor cortex - is devoted to his or her left fingers when compared with a non-violinist. Two or three times as large, in fact. Violinists also have more connections between the two sides of the brain which account for the better co-ordination they have between each hand compared with a non-violin player.
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